// SPDX-License-Identifier:  LGPL-2.1 OR BSD-3-Clause
//--=========================================================================--
//  This file is a part of VPU Reference API project
//-----------------------------------------------------------------------------
//
//       This confidential and proprietary software may be used only
//     as authorized by a licensing agreement from Chips&Media Inc.
//     In the event of publication, the following notice is applicable:
//
//            (C) COPYRIGHT 2006 - 2011  CHIPS&MEDIA INC.
//                      ALL RIGHTS RESERVED
//
//       The entire notice above must be reproduced on all authorized
//       copies.
//
//--=========================================================================--

#include "vpuapifunc.h"
#include "product.h"
#include "coda9/coda9.h"
#include "coda9/coda9_regdefine.h"
#include "coda9/coda9_vpuconfig.h"
#include "wave/common/common_regdefine.h"
#include "wave/wave4/wave4_regdefine.h"


#ifndef MIN
#define MIN(a, b)       (((a) < (b)) ? (a) : (b))
#endif
#ifndef MAX
#define MAX(a, b)       (((a) > (b)) ? (a) : (b))
#endif
#define MAX_LAVEL_IDX    16
static const int g_anLevel[MAX_LAVEL_IDX] = 
{ 
    10, 11, 11, 12, 13, 
    //10, 16, 11, 12, 13, 
    20, 21, 22, 
    30, 31, 32, 
    40, 41, 42, 
    50, 51
};

static const int g_anLevelMaxMBPS[MAX_LAVEL_IDX] = 
{ 
    1485,   1485,   3000,   6000, 11880, 
    11880,  19800,  20250, 
    40500,  108000, 216000, 
    245760, 245760, 522240, 
    589824, 983040
};

static const int g_anLevelMaxFS[MAX_LAVEL_IDX] = 
{ 
    99,    99,   396, 396, 396, 
    396,   792,  1620, 
    1620,  3600, 5120, 
    8192,  8192, 8704, 
    22080, 36864
};

static const int g_anLevelMaxBR[MAX_LAVEL_IDX] = 
{ 
    64,     64,   192,  384, 768, 
    2000,   4000,  4000, 
    10000,  14000, 20000, 
    20000,  50000, 50000, 
    135000, 240000
};

static const int g_anLevelSliceRate[MAX_LAVEL_IDX] = 
{
    0,  0,  0,  0,  0,
    0,  0,  0, 
    22, 60, 60, 
    60, 24, 24, 
    24, 24
};

static const int g_anLevelMaxMbs[MAX_LAVEL_IDX] = 
{
    28,   28,  56, 56, 56, 
    56,   79, 113, 
    113, 169, 202, 
    256, 256, 263, 
    420, 543
};

/******************************************************************************
    define value
******************************************************************************/

/******************************************************************************
    Codec Instance Slot Management
******************************************************************************/

RetCode InitCodecInstancePool(Uint32 coreIdx)
{
    int i;
    CodecInst * pCodecInst;
    vpu_instance_pool_t *vip;

    vip = (vpu_instance_pool_t *)vdi_get_instance_pool(coreIdx);
    if (!vip)
        return RETCODE_INSUFFICIENT_RESOURCE;

    if (vip->instance_pool_inited==0)
    {
        for( i = 0; i < MAX_NUM_INSTANCE; i++)
        {
            pCodecInst = (CodecInst *)vip->codecInstPool[i];
            pCodecInst->instIndex = i;
            pCodecInst->inUse = 0;
        }
        vip->instance_pool_inited = 1;    
    }    
    return RETCODE_SUCCESS;
}
 
/*
 * GetCodecInstance() obtains a instance.
 * It stores a pointer to the allocated instance in *ppInst
 * and returns RETCODE_SUCCESS on success.
 * Failure results in 0(null pointer) in *ppInst and RETCODE_FAILURE.
 */

RetCode GetCodecInstance(Uint32 coreIdx, CodecInst ** ppInst)
{
    int                     i;
    CodecInst*              pCodecInst = 0;
    vpu_instance_pool_t*    vip;
    Uint32                  handleSize;

    vip = (vpu_instance_pool_t *)vdi_get_instance_pool(coreIdx);
    if (!vip)
        return RETCODE_INSUFFICIENT_RESOURCE;

    for (i = 0; i < MAX_NUM_INSTANCE; i++) {
        pCodecInst = (CodecInst *)vip->codecInstPool[i];

        if (!pCodecInst) {
            return RETCODE_FAILURE;
        }

        if (!pCodecInst->inUse) {
            break;
        }
    }

    if (i == MAX_NUM_INSTANCE) {
        *ppInst = 0;
        return RETCODE_FAILURE;
    }

    pCodecInst->inUse         = 1;
    pCodecInst->coreIdx       = coreIdx;
    pCodecInst->codecMode     = -1;
    pCodecInst->codecModeAux  = -1;
    pCodecInst->loggingEnable = 0;
    pCodecInst->isDecoder     = TRUE;
    pCodecInst->productId     = ProductVpuGetId(coreIdx);
    osal_memset((void*)&pCodecInst->CodecInfo, 0x00, sizeof(pCodecInst->CodecInfo));

    handleSize = sizeof(DecInfo);
    if (handleSize < sizeof(EncInfo)) {
        handleSize = sizeof(EncInfo);
    }
    if ((pCodecInst->CodecInfo=(void*)osal_malloc(handleSize)) == NULL) {
        return RETCODE_INSUFFICIENT_RESOURCE;
    }
    osal_memset(pCodecInst->CodecInfo, 0x00, sizeof(handleSize));

    *ppInst = pCodecInst;

    if (vdi_open_instance(pCodecInst->coreIdx, pCodecInst->instIndex) < 0) {
        return RETCODE_FAILURE;
    }

    return RETCODE_SUCCESS;
}

void FreeCodecInstance(CodecInst * pCodecInst)
{
    pCodecInst->inUse = 0;
    pCodecInst->codecMode    = -1;
    pCodecInst->codecModeAux = -1;

    vdi_close_instance(pCodecInst->coreIdx, pCodecInst->instIndex);
    
    osal_free(pCodecInst->CodecInfo);
    pCodecInst->CodecInfo = NULL;
}

RetCode CheckInstanceValidity(CodecInst * pCodecInst)
{
    int i;
    vpu_instance_pool_t *vip;

    vip = (vpu_instance_pool_t *)vdi_get_instance_pool(pCodecInst->coreIdx);
    if (!vip)
        return RETCODE_INSUFFICIENT_RESOURCE;

    for (i = 0; i < MAX_NUM_INSTANCE; i++) {
        if ((CodecInst *)vip->codecInstPool[i] == pCodecInst)
            return RETCODE_SUCCESS;
    }

    return RETCODE_INVALID_HANDLE;
}

/******************************************************************************
    API Subroutines
******************************************************************************/

RetCode CheckDecOpenParam(DecOpenParam * pop)
{
    if (pop == 0) {
        return RETCODE_INVALID_PARAM;
    }
    if (pop->bitstreamBuffer % 8) {
        return RETCODE_INVALID_PARAM;
    }

    if (pop->bitstreamBufferSize % 1024 ||
            pop->bitstreamBufferSize < 1024 ||
            pop->bitstreamBufferSize > (256*1024*1024-1) ) {
        return RETCODE_INVALID_PARAM;
    }

    if (pop->bitstreamFormat != STD_AVC
            && pop->bitstreamFormat != STD_VC1
            && pop->bitstreamFormat != STD_MPEG2
            && pop->bitstreamFormat != STD_H263
            && pop->bitstreamFormat != STD_MPEG4
            && pop->bitstreamFormat != STD_DIV3
            && pop->bitstreamFormat != STD_RV
            && pop->bitstreamFormat != STD_AVS
            && pop->bitstreamFormat != STD_THO
            && pop->bitstreamFormat != STD_VP3
            && pop->bitstreamFormat != STD_VP8
            && pop->bitstreamFormat != STD_HEVC
            && pop->bitstreamFormat != STD_VP9
    ) {
        return RETCODE_INVALID_PARAM;
    }
    
    if( pop->mp4DeblkEnable == 1 && !(pop->bitstreamFormat == STD_MPEG4 || pop->bitstreamFormat == STD_MPEG2 || pop->bitstreamFormat == STD_DIV3)) {
        return RETCODE_INVALID_PARAM;
    }
    if (pop->wtlEnable && pop->tiled2LinearEnable) {
        return RETCODE_INVALID_PARAM;
    }
    if (pop->wtlEnable) {
        if (pop->wtlMode != FF_FRAME && pop->wtlMode != FF_FIELD ) {
            return RETCODE_INVALID_PARAM;
        }
    }    

    if (pop->coreIdx > MAX_NUM_VPU_CORE) {
        return RETCODE_INVALID_PARAM;
    }

    return RETCODE_SUCCESS;
}

Uint64 GetTimestamp(
    EncHandle handle
    )
{
    CodecInst*  pCodecInst = (CodecInst*)handle;
    EncInfo*    pEncInfo   = NULL;
    Uint64      pts;
    Uint32      fps;

    if (pCodecInst == NULL) {
        return 0;
    }

    pEncInfo   = &pCodecInst->CodecInfo->encInfo;
    fps        = pEncInfo->openParam.frameRateInfo;
    if (fps == 0) {
        fps    = 30;        /* 30 fps */
    }

    pts        = pEncInfo->curPTS;
    pEncInfo->curPTS += 90000/fps; /* 90KHz/fps */

    return pts;
}

RetCode CalcEncCropInfo(EncHevcParam* param, int rotMode, int srcWidth, int srcHeight)
{
    int width32, height32, pad_right, pad_bot;
    int crop_right, crop_left, crop_top, crop_bot;
    int prp_mode = rotMode>>1;  // remove prp_enable bit

    width32 = (srcWidth + 31)&~31;
    height32= (srcHeight+ 31)&~31;

    pad_right = width32 - srcWidth;
    pad_bot   = height32 - srcHeight;

    if (param->confWinRight > 0)
        crop_right = param->confWinRight + pad_right;
    else
        crop_right = pad_right;

    if (param->confWinBot > 0)
        crop_bot = param->confWinBot + pad_bot;
    else
        crop_bot = pad_bot;

    crop_top     = param->confWinTop;
    crop_left    = param->confWinLeft;

    param->confWinTop   = crop_top;
    param->confWinLeft  = crop_left;
    param->confWinBot   = crop_bot;
    param->confWinRight = crop_right;

    if(prp_mode == 1 || prp_mode ==15)
    {
        param->confWinTop   = crop_right;
        param->confWinLeft  = crop_top;
        param->confWinBot   = crop_left;
        param->confWinRight = crop_bot;
    }
    else if(prp_mode == 2 || prp_mode ==12)
    {
        param->confWinTop   = crop_bot;
        param->confWinLeft  = crop_right;
        param->confWinBot   = crop_top;
        param->confWinRight = crop_left;
    }
    else if(prp_mode == 3 || prp_mode ==13)
    {
        param->confWinTop   = crop_left;
        param->confWinLeft  = crop_bot;
        param->confWinBot   = crop_right;
        param->confWinRight = crop_top;
    }
    else if(prp_mode == 4 || prp_mode ==10)
    {
        param->confWinTop   = crop_bot;
        param->confWinBot   = crop_top;
    }
    else if(prp_mode == 8 || prp_mode ==6)
    {
        param->confWinLeft  = crop_right;
        param->confWinRight = crop_left;
    }
    else if(prp_mode == 5 || prp_mode ==11)
    {
        param->confWinTop   = crop_left;
        param->confWinLeft  = crop_top;
        param->confWinBot   = crop_right;
        param->confWinRight = crop_bot;
    }
    else if(prp_mode == 7 || prp_mode ==9)
    {
        param->confWinTop   = crop_right;
        param->confWinLeft  = crop_bot;
        param->confWinBot   = crop_left;
        param->confWinRight = crop_top;
    }

    return RETCODE_SUCCESS;
}

int DecBitstreamBufEmpty(DecInfo * pDecInfo)
{
    return (pDecInfo->streamRdPtr == pDecInfo->streamWrPtr);    
}

#ifdef DRAM_TEST
RetCode ExecDRAMReadWriteTest(Uint32 coreIdx, Uint32 *dram_source_addr, Uint32 *dram_destination_addr, Uint32 *dram_data_size)
{
	VpuAttr* pAttr;
	RetCode  ret;

	if (coreIdx >= MAX_NUM_VPU_CORE)
		return RETCODE_INVALID_PARAM;

	EnterLock(coreIdx);

	if (ProductVpuIsInit(coreIdx) == 0) {
		return RETCODE_NOT_INITIALIZED;
	}

	if (GetPendingInst(coreIdx)) {
		LeaveLock(coreIdx);
		return RETCODE_FRAME_NOT_COMPLETE;
	}

	pAttr = &g_VpuCoreAttributes[coreIdx];

	ret         = ProductVpuDRAMReadWriteTest(coreIdx, dram_source_addr, dram_destination_addr, dram_data_size);

	LeaveLock(coreIdx);

	return ret;
}
#endif

RetCode SetParaSet(DecHandle handle, int paraSetType, DecParamSet * para)
{
    CodecInst * pCodecInst;
    PhysicalAddress paraBuffer;
    int i;
    Uint32 * src;
    
    pCodecInst = handle;
    src = para->paraSet;

    EnterLock(pCodecInst->coreIdx);

    paraBuffer = VpuReadReg(pCodecInst->coreIdx, BIT_PARA_BUF_ADDR);
    for (i = 0; i < para->size; i += 4) {
        VpuWriteReg(pCodecInst->coreIdx, paraBuffer + i, *src++);
    }
    VpuWriteReg(pCodecInst->coreIdx, CMD_DEC_PARA_SET_TYPE, paraSetType); // 0: SPS, 1: PPS
    VpuWriteReg(pCodecInst->coreIdx, CMD_DEC_PARA_SET_SIZE, para->size);

    Coda9BitIssueCommand(pCodecInst->coreIdx, pCodecInst, DEC_PARA_SET);
    if (vdi_wait_vpu_busy(pCodecInst->coreIdx, __VPU_BUSY_TIMEOUT, BIT_BUSY_FLAG) == -1) {
        if (pCodecInst->loggingEnable)
            vdi_log(pCodecInst->coreIdx, DEC_PARA_SET, 0);
        LeaveLock(pCodecInst->coreIdx);
        return RETCODE_VPU_RESPONSE_TIMEOUT;
    }
    if (pCodecInst->loggingEnable)
        vdi_log(pCodecInst->coreIdx, DEC_PARA_SET, 0);
    
    LeaveLock(pCodecInst->coreIdx);
    return RETCODE_SUCCESS;
}

void DecSetHostParaAddr(Uint32 coreIdx, PhysicalAddress baseAddr, PhysicalAddress paraBuffer)
{
    BYTE tempBuf[8]={0,};                    // 64bit bus & endian
    Uint32 val;
    
    val = paraBuffer;
    tempBuf[0] = 0;
    tempBuf[1] = 0;
    tempBuf[2] = 0;
    tempBuf[3] = 0;
    tempBuf[4] = (val >> 24) & 0xff;
    tempBuf[5] = (val >> 16) & 0xff;
    tempBuf[6] = (val >> 8) & 0xff;
    tempBuf[7] = (val >> 0) & 0xff;                
    VpuWriteMem(coreIdx, baseAddr, (BYTE *)tempBuf, 8, VDI_BIG_ENDIAN);                
}

RetCode CheckEncInstanceValidity(EncHandle handle)
{
    CodecInst * pCodecInst;
    RetCode ret;

    if (handle == NULL)
        return RETCODE_INVALID_HANDLE;

    pCodecInst = handle;
    ret = CheckInstanceValidity(pCodecInst);
    if (ret != RETCODE_SUCCESS) {
        return RETCODE_INVALID_HANDLE;
    }
    if (!pCodecInst->inUse) {
        return RETCODE_INVALID_HANDLE;
    }

    if (pCodecInst->codecMode != MP4_ENC && 
        pCodecInst->codecMode != HEVC_ENC && 
        pCodecInst->codecMode != AVC_ENC &&
        pCodecInst->codecMode != C7_MP4_ENC && 
        pCodecInst->codecMode != C7_AVC_ENC) {
        return RETCODE_INVALID_HANDLE;
    }
    return RETCODE_SUCCESS;
}

RetCode CheckEncParam(EncHandle handle, EncParam * param)
{
    CodecInst *pCodecInst;
    EncInfo *pEncInfo;

    pCodecInst = handle;
    pEncInfo = &pCodecInst->CodecInfo->encInfo;

    if (param == 0) {
        return RETCODE_INVALID_PARAM;
    }
    if (param->skipPicture != 0 && param->skipPicture != 1) {
        return RETCODE_INVALID_PARAM;
    }
    if (param->skipPicture == 0) {
        if (param->sourceFrame == 0) {
            return RETCODE_INVALID_FRAME_BUFFER;
        }
        if (param->forceIPicture != 0 && param->forceIPicture != 1) {
            return RETCODE_INVALID_PARAM;
        }
    }
    if (pEncInfo->openParam.bitRate == 0) { // no rate control
        if (pCodecInst->codecMode == MP4_ENC || pCodecInst->codecMode == C7_MP4_ENC) {
            if (param->quantParam < 1 || param->quantParam > 31) {
                return RETCODE_INVALID_PARAM;
            }
        }
        else if (pCodecInst->codecMode == HEVC_ENC) {
            if (param->forcePicQpEnable == 1) {
                if (param->forcePicQpI < 0 || param->forcePicQpI > 51)
                    return RETCODE_INVALID_PARAM;

                if (param->forcePicQpP < 0 || param->forcePicQpP > 51)
                    return RETCODE_INVALID_PARAM;

                if (param->forcePicQpB < 0 || param->forcePicQpB > 51)
                    return RETCODE_INVALID_PARAM;
            }
            if (pEncInfo->ringBufferEnable == 0) {
                if (param->picStreamBufferAddr % 16 || param->picStreamBufferSize == 0) 
                    return RETCODE_INVALID_PARAM;
            }
        }
        else { // AVC_ENC
            if (param->quantParam < 0 || param->quantParam > 51) {
                return RETCODE_INVALID_PARAM;
            }
        }
    }
    if (pEncInfo->ringBufferEnable == 0) {
        if (param->picStreamBufferAddr % 8 || param->picStreamBufferSize == 0) {
            return RETCODE_INVALID_PARAM;
        }
    }

    if (param->ctuOptParam.roiEnable && param->ctuOptParam.ctuQpEnable)
        return RETCODE_INVALID_PARAM;
    return RETCODE_SUCCESS;
}


/**
 * GetEncHeader() 
 *  1. Generate encoder header bitstream
 * @param handle         : encoder handle
 * @param encHeaderParam : encoder header parameter (buffer, size, type)
 * @return none
 */
RetCode GetEncHeader(EncHandle handle, EncHeaderParam * encHeaderParam)
{
    CodecInst * pCodecInst;
    EncInfo * pEncInfo;
    EncOpenParam *encOP;
    PhysicalAddress rdPtr;
    PhysicalAddress wrPtr;        
    int flag=0;
    Uint32 val = 0;

    pCodecInst = handle;
    pEncInfo = &pCodecInst->CodecInfo->encInfo;
    encOP = &(pEncInfo->openParam);

    EnterLock(pCodecInst->coreIdx);

    SetPendingInst(pCodecInst->coreIdx, pCodecInst);

    if (pEncInfo->ringBufferEnable == 0) {	
        if (pEncInfo->lineBufIntEn)
            val |= (0x1<<6);
        val |= (0x1<<5);
        val |= (0x1<<4);

    } 
    else {
        val |= (0x1<<3);
    }
    val |= pEncInfo->openParam.streamEndian;
    VpuWriteReg(pCodecInst->coreIdx, BIT_BIT_STREAM_CTRL, val);

    if (pEncInfo->ringBufferEnable == 0) {
        VpuWriteReg(pCodecInst->coreIdx, CMD_ENC_HEADER_BB_START, encHeaderParam->buf);
        VpuWriteReg(pCodecInst->coreIdx, CMD_ENC_HEADER_BB_SIZE, encHeaderParam->size/1024);
    }
    
    if ((encHeaderParam->headerType == SPS_RBSP || encHeaderParam->headerType == SPS_RBSP_MVC) && 
        pEncInfo->openParam.bitstreamFormat == STD_AVC) {
        Uint32 CropV, CropH;
        if (encOP->EncStdParam.avcParam.frameCroppingFlag == 1) {
            flag = 1;
            CropH = encOP->EncStdParam.avcParam.frameCropLeft << 16;
            CropH |= encOP->EncStdParam.avcParam.frameCropRight;
            CropV = encOP->EncStdParam.avcParam.frameCropTop << 16;
            CropV |= encOP->EncStdParam.avcParam.frameCropBottom;
            VpuWriteReg(pCodecInst->coreIdx, CMD_ENC_HEADER_FRAME_CROP_H, CropH);
            VpuWriteReg(pCodecInst->coreIdx, CMD_ENC_HEADER_FRAME_CROP_V, CropV);
        }

    }
    VpuWriteReg(pCodecInst->coreIdx, CMD_ENC_HEADER_CODE, encHeaderParam->headerType | (flag << 3)); // 0: SPS, 1: PPS

    VpuWriteReg(pCodecInst->coreIdx, pEncInfo->streamRdPtrRegAddr, pEncInfo->streamRdPtr);
    VpuWriteReg(pCodecInst->coreIdx, pEncInfo->streamWrPtrRegAddr, pEncInfo->streamWrPtr);

    Coda9BitIssueCommand(pCodecInst->coreIdx, pCodecInst, ENCODE_HEADER);
    if (vdi_wait_vpu_busy(pCodecInst->coreIdx, __VPU_BUSY_TIMEOUT, BIT_BUSY_FLAG) == -1) {
        if (pCodecInst->loggingEnable)
            vdi_log(pCodecInst->coreIdx, ENCODE_HEADER, 2);
        SetPendingInst(pCodecInst->coreIdx, 0);
        LeaveLock(pCodecInst->coreIdx);
        return RETCODE_VPU_RESPONSE_TIMEOUT;
    }
    if (pCodecInst->loggingEnable)
        vdi_log(pCodecInst->coreIdx, ENCODE_HEADER, 0);
    
    if (pEncInfo->ringBufferEnable == 0) {
        rdPtr = encHeaderParam->buf;
        wrPtr = VpuReadReg(pCodecInst->coreIdx, pEncInfo->streamWrPtrRegAddr);

        {
            encHeaderParam->size = wrPtr - rdPtr;
        }
    }
    else {
        rdPtr = VpuReadReg(pCodecInst->coreIdx, pEncInfo->streamRdPtrRegAddr);
        wrPtr = VpuReadReg(pCodecInst->coreIdx, pEncInfo->streamWrPtrRegAddr);    
        encHeaderParam->buf = rdPtr;
        encHeaderParam->size       = wrPtr - rdPtr;
    }    

    pEncInfo->streamWrPtr = wrPtr;
    pEncInfo->streamRdPtr = rdPtr;

    SetPendingInst(pCodecInst->coreIdx, 0);
    LeaveLock(pCodecInst->coreIdx);
    return RETCODE_SUCCESS;
}

/**
 * EncParaSet() 
 *  1. Setting encoder header option
 *  2. Get RBSP format header in PARA_BUF
 * @param handle      : encoder handle
 * @param paraSetType : encoder header type >> SPS: 0, PPS: 1, VOS: 1, VO: 2, VOL: 0
 * @return none
 */
RetCode EncParaSet(EncHandle handle, int paraSetType)
{
    CodecInst * pCodecInst;
    EncInfo * pEncInfo;    
    int flag = 0;
    int encHeaderCode = paraSetType;
    EncOpenParam *encOP;

    pCodecInst = handle;
    pEncInfo = &pCodecInst->CodecInfo->encInfo;
    encOP = &(pEncInfo->openParam);

    EnterLock(pCodecInst->coreIdx);

    if( (paraSetType == SPS_RBSP_MVC || paraSetType == SPS_RBSP) && pEncInfo->openParam.bitstreamFormat == STD_AVC) {
        Uint32 CropV, CropH;

        if (encOP->EncStdParam.avcParam.frameCroppingFlag == 1) {
            flag = 1;
            CropH = encOP->EncStdParam.avcParam.frameCropLeft << 16;
            CropH |= encOP->EncStdParam.avcParam.frameCropRight;
            CropV = encOP->EncStdParam.avcParam.frameCropTop << 16;
            CropV |= encOP->EncStdParam.avcParam.frameCropBottom;
            VpuWriteReg(pCodecInst->coreIdx, CMD_ENC_HEADER_FRAME_CROP_H, CropH );
            VpuWriteReg(pCodecInst->coreIdx, CMD_ENC_HEADER_FRAME_CROP_V, CropV );            
        }    
    }
    encHeaderCode |= paraSetType| (flag<<3); //paraSetType>> SPS: 0, PPS: 1, VOS: 1, VO: 2, VOL: 0
 

    VpuWriteReg(pCodecInst->coreIdx, CMD_ENC_PARA_SET_TYPE, encHeaderCode); 

    Coda9BitIssueCommand(pCodecInst->coreIdx, pCodecInst, ENC_PARA_SET);
    if (vdi_wait_vpu_busy(pCodecInst->coreIdx, __VPU_BUSY_TIMEOUT, BIT_BUSY_FLAG) == -1) {
        if (pCodecInst->loggingEnable)
			vdi_log(pCodecInst->coreIdx, ENC_PARA_SET, 2);
        LeaveLock(pCodecInst->coreIdx);
        return RETCODE_VPU_RESPONSE_TIMEOUT;
    }
    if (pCodecInst->loggingEnable)
        vdi_log(pCodecInst->coreIdx, ENC_PARA_SET, 0);

    LeaveLock(pCodecInst->coreIdx);
    return RETCODE_SUCCESS;
}

RetCode SetGopNumber(EncHandle handle, Uint32 *pGopNumber)
{
    CodecInst * pCodecInst;
    int data =0;
    Uint32 gopNumber = *pGopNumber;
    
    pCodecInst = handle;
    
    data = 1;

    EnterLock(pCodecInst->coreIdx);
    
    VpuWriteReg(pCodecInst->coreIdx, CMD_ENC_PARAM_CHANGE_ENABLE, data);
    VpuWriteReg(pCodecInst->coreIdx, CMD_ENC_PARAM_CHANGE_GOP_NUM, gopNumber);

    Coda9BitIssueCommand(pCodecInst->coreIdx, pCodecInst, RC_CHANGE_PARAMETER);
    if (vdi_wait_vpu_busy(pCodecInst->coreIdx, __VPU_BUSY_TIMEOUT, BIT_BUSY_FLAG) == -1) {
        if (pCodecInst->loggingEnable)
			vdi_log(pCodecInst->coreIdx, RC_CHANGE_PARAMETER, 2);
        LeaveLock(pCodecInst->coreIdx);
        return RETCODE_VPU_RESPONSE_TIMEOUT;
    }
    if (pCodecInst->loggingEnable)
        vdi_log(pCodecInst->coreIdx, RC_CHANGE_PARAMETER, 0);
    
    LeaveLock(pCodecInst->coreIdx);
    return RETCODE_SUCCESS;
}

RetCode SetIntraQp(EncHandle handle, Uint32 *pIntraQp)
{
    CodecInst * pCodecInst;
    int data =0;
    Uint32 intraQp = *pIntraQp;
        
    pCodecInst = handle;
    
    data = 1<<1;

    EnterLock(pCodecInst->coreIdx);
    
    VpuWriteReg(pCodecInst->coreIdx, CMD_ENC_PARAM_CHANGE_ENABLE, data);
    VpuWriteReg(pCodecInst->coreIdx, CMD_ENC_PARAM_CHANGE_INTRA_QP, intraQp);

    Coda9BitIssueCommand(pCodecInst->coreIdx, pCodecInst, RC_CHANGE_PARAMETER);
    if (vdi_wait_vpu_busy(pCodecInst->coreIdx, __VPU_BUSY_TIMEOUT, BIT_BUSY_FLAG) == -1) {
        if (pCodecInst->loggingEnable)
			vdi_log(pCodecInst->coreIdx, RC_CHANGE_PARAMETER, 2);
        LeaveLock(pCodecInst->coreIdx);
        return RETCODE_VPU_RESPONSE_TIMEOUT;
    }
    if (pCodecInst->loggingEnable)
        vdi_log(pCodecInst->coreIdx, RC_CHANGE_PARAMETER, 0);
    LeaveLock(pCodecInst->coreIdx);
    return RETCODE_SUCCESS;
}

RetCode SetBitrate(EncHandle handle, Uint32 *pBitrate)
{
    CodecInst * pCodecInst;
    int data =0;
    Uint32 bitrate = *pBitrate;
        
    pCodecInst = handle;
    
    data = 1<<2;
    
    EnterLock(pCodecInst->coreIdx);
    
    VpuWriteReg(pCodecInst->coreIdx, CMD_ENC_PARAM_CHANGE_ENABLE, data);
    VpuWriteReg(pCodecInst->coreIdx, CMD_ENC_PARAM_CHANGE_BITRATE, bitrate);

    Coda9BitIssueCommand(pCodecInst->coreIdx, pCodecInst, RC_CHANGE_PARAMETER);
    if (vdi_wait_vpu_busy(pCodecInst->coreIdx, __VPU_BUSY_TIMEOUT, BIT_BUSY_FLAG) == -1) {
        if (pCodecInst->loggingEnable)
			vdi_log(pCodecInst->coreIdx, RC_CHANGE_PARAMETER, 2);
        LeaveLock(pCodecInst->coreIdx);
        return RETCODE_VPU_RESPONSE_TIMEOUT;
    }
    if (pCodecInst->loggingEnable)
        vdi_log(pCodecInst->coreIdx, RC_CHANGE_PARAMETER, 0);
    LeaveLock(pCodecInst->coreIdx);
    return RETCODE_SUCCESS;
}

RetCode SetFramerate(EncHandle handle, Uint32 *pFramerate)
{
    CodecInst * pCodecInst;
    int data =0;
    Uint32 frameRate = *pFramerate;
    
    pCodecInst = handle;
    
    data = 1<<3;

    EnterLock(pCodecInst->coreIdx);

    VpuWriteReg(pCodecInst->coreIdx, CMD_ENC_PARAM_CHANGE_ENABLE, data);
    VpuWriteReg(pCodecInst->coreIdx, CMD_ENC_PARAM_CHANGE_F_RATE, frameRate);

    Coda9BitIssueCommand(pCodecInst->coreIdx, pCodecInst, RC_CHANGE_PARAMETER);
    if (vdi_wait_vpu_busy(pCodecInst->coreIdx, __VPU_BUSY_TIMEOUT, BIT_BUSY_FLAG) == -1) {
        if (pCodecInst->loggingEnable)
			vdi_log(pCodecInst->coreIdx, RC_CHANGE_PARAMETER, 2);
        LeaveLock(pCodecInst->coreIdx);
        return RETCODE_VPU_RESPONSE_TIMEOUT;
    }
    if (pCodecInst->loggingEnable)
        vdi_log(pCodecInst->coreIdx, RC_CHANGE_PARAMETER, 0);
    
    LeaveLock(pCodecInst->coreIdx);
    return RETCODE_SUCCESS;
}

RetCode SetIntraRefreshNum(EncHandle handle, Uint32 *pIntraRefreshNum)
{
    CodecInst * pCodecInst;
    Uint32 intraRefreshNum = *pIntraRefreshNum;
    int data = 0;

    pCodecInst = handle;
    
    data = 1<<4;

    EnterLock(pCodecInst->coreIdx);

    VpuWriteReg(pCodecInst->coreIdx, CMD_ENC_PARAM_CHANGE_ENABLE, data);
    VpuWriteReg(pCodecInst->coreIdx, CMD_ENC_PARAM_CHANGE_INTRA_REFRESH, intraRefreshNum);

    Coda9BitIssueCommand(pCodecInst->coreIdx, pCodecInst, RC_CHANGE_PARAMETER);
    if (vdi_wait_vpu_busy(pCodecInst->coreIdx, __VPU_BUSY_TIMEOUT, BIT_BUSY_FLAG) == -1) {
        if (pCodecInst->loggingEnable)
			vdi_log(pCodecInst->coreIdx, RC_CHANGE_PARAMETER, 2);
        LeaveLock(pCodecInst->coreIdx);
        return RETCODE_VPU_RESPONSE_TIMEOUT;
    }
    if (pCodecInst->loggingEnable)
        vdi_log(pCodecInst->coreIdx, RC_CHANGE_PARAMETER, 0);
    LeaveLock(pCodecInst->coreIdx);
    return RETCODE_SUCCESS;
}

RetCode SetSliceMode(EncHandle handle, EncSliceMode *pSliceMode)
{
    CodecInst * pCodecInst;
    Uint32 data = 0;
    int data2 = 0;
    
    pCodecInst = handle;
    EnterLock(pCodecInst->coreIdx);    
    
    data = pSliceMode->sliceSize<<2 | pSliceMode->sliceSizeMode<<1 | pSliceMode->sliceMode;
    data2 = 1<<5;

    VpuWriteReg(pCodecInst->coreIdx, CMD_ENC_PARAM_CHANGE_ENABLE, data2);
    VpuWriteReg(pCodecInst->coreIdx, CMD_ENC_PARAM_CHANGE_SLICE_MODE, data);

    Coda9BitIssueCommand(pCodecInst->coreIdx, pCodecInst, RC_CHANGE_PARAMETER);
    if (vdi_wait_vpu_busy(pCodecInst->coreIdx, __VPU_BUSY_TIMEOUT, BIT_BUSY_FLAG) == -1) {
        if (pCodecInst->loggingEnable)
			vdi_log(pCodecInst->coreIdx, RC_CHANGE_PARAMETER, 2);
        LeaveLock(pCodecInst->coreIdx);
        return RETCODE_VPU_RESPONSE_TIMEOUT;
    }
    if (pCodecInst->loggingEnable)
        vdi_log(pCodecInst->coreIdx, RC_CHANGE_PARAMETER, 0);
    LeaveLock(pCodecInst->coreIdx);

    return RETCODE_SUCCESS;
}

RetCode SetHecMode(EncHandle handle, int mode)
{
    CodecInst * pCodecInst;
    Uint32 HecMode = mode;
    int data = 0;
    
    pCodecInst = handle;
    
    data = 1 << 6;

    EnterLock(pCodecInst->coreIdx);
    
    VpuWriteReg(pCodecInst->coreIdx, CMD_ENC_PARAM_CHANGE_ENABLE, data);
    VpuWriteReg(pCodecInst->coreIdx, CMD_ENC_PARAM_CHANGE_HEC_MODE, HecMode);

    Coda9BitIssueCommand(pCodecInst->coreIdx, pCodecInst, RC_CHANGE_PARAMETER);
    if (vdi_wait_vpu_busy(pCodecInst->coreIdx, __VPU_BUSY_TIMEOUT, BIT_BUSY_FLAG) == -1) {
        if (pCodecInst->loggingEnable)
			vdi_log(pCodecInst->coreIdx, RC_CHANGE_PARAMETER, 2);
        LeaveLock(pCodecInst->coreIdx);
        return RETCODE_VPU_RESPONSE_TIMEOUT;
    }
    if (pCodecInst->loggingEnable)
        vdi_log(pCodecInst->coreIdx, RC_CHANGE_PARAMETER, 0);
    LeaveLock(pCodecInst->coreIdx);
    return RETCODE_SUCCESS;
}



void EncSetHostParaAddr(Uint32 coreIdx, PhysicalAddress baseAddr, PhysicalAddress paraAddr)
{
    BYTE tempBuf[8]={0,};                    // 64bit bus & endian
    Uint32 val;
    
    val =  paraAddr;
    tempBuf[0] = 0;
    tempBuf[1] = 0;
    tempBuf[2] = 0;
    tempBuf[3] = 0;
    tempBuf[4] = (val >> 24) & 0xff;
    tempBuf[5] = (val >> 16) & 0xff;
    tempBuf[6] = (val >> 8) & 0xff;
    tempBuf[7] = (val >> 0) & 0xff;                        
    VpuWriteMem(coreIdx, baseAddr, (BYTE *)tempBuf, 8, VDI_BIG_ENDIAN);
}


RetCode EnterDispFlagLock(Uint32 coreIdx)
{
    if (vdi_disp_lock(coreIdx) != 0)
        return RETCODE_FAILURE;
    return RETCODE_SUCCESS;
}

RetCode LeaveDispFlagLock(Uint32 coreIdx)
{
    vdi_disp_unlock(coreIdx);
    return RETCODE_SUCCESS;
}

RetCode EnterLock(Uint32 coreIdx)
{    
    if (vdi_lock(coreIdx) != 0)
        return RETCODE_FAILURE;
    SetClockGate(coreIdx, 1);
    return RETCODE_SUCCESS;
}

RetCode LeaveLock(Uint32 coreIdx)
{
    SetClockGate(coreIdx, 0);
    vdi_unlock(coreIdx);    
    return RETCODE_SUCCESS;
}

RetCode SetClockGate(Uint32 coreIdx, Uint32 on)
{
    CodecInst *inst;
    vpu_instance_pool_t *vip;

    vip = (vpu_instance_pool_t *)vdi_get_instance_pool(coreIdx);
    if (!vip) {
        VLOG(ERR, "SetClockGate: RETCODE_INSUFFICIENT_RESOURCE\n");
        return RETCODE_INSUFFICIENT_RESOURCE;
    }

    inst = (CodecInst *)vip->pendingInst;

    if ( !on && (inst || !vdi_lock_check(coreIdx)))
        return RETCODE_SUCCESS;

    vdi_set_clock_gate(coreIdx, on);    

    return RETCODE_SUCCESS;
}

void SetPendingInst(Uint32 coreIdx, CodecInst *inst)
{
    vpu_instance_pool_t *vip;

    vip = (vpu_instance_pool_t *)vdi_get_instance_pool(coreIdx);
    if (!vip)
        return;

    vip->pendingInst = inst;        
	if (inst)
		vip->pendingInstIdxPlus1 = (inst->instIndex+1);
	else
		vip->pendingInstIdxPlus1 = 0;
}

void ClearPendingInst(Uint32 coreIdx)
{
    vpu_instance_pool_t *vip;

    vip = (vpu_instance_pool_t *)vdi_get_instance_pool(coreIdx);
    if (!vip)
        return;

    if(vip->pendingInst) {
        vip->pendingInst = 0;    
		vip->pendingInstIdxPlus1 = 0;
	}
}

CodecInst *GetPendingInst(Uint32 coreIdx)
{
    vpu_instance_pool_t *vip;
	int pendingInstIdx;
	
    vip = (vpu_instance_pool_t *)vdi_get_instance_pool(coreIdx);
    if (!vip)
    {
        return NULL;
    }

	if (!vip->pendingInst)
		return NULL;

	pendingInstIdx = vip->pendingInstIdxPlus1-1;
	if (pendingInstIdx < 0)
		return NULL;
	if (pendingInstIdx > MAX_NUM_INSTANCE)
		return NULL;
	
	return  (CodecInst *)vip->codecInstPool[pendingInstIdx];
}

int GetPendingInstIdx(Uint32 coreIdx)
{
	vpu_instance_pool_t *vip;

	vip = (vpu_instance_pool_t *)vdi_get_instance_pool(coreIdx);
	if (!vip)
		return -1;

	return (vip->pendingInstIdxPlus1-1);
}

Int32 MaverickCache2Config(
    MaverickCacheConfig* pCache, 
    BOOL                 decoder , 
    BOOL                 interleave, 
    Uint32               bypass, 
    Uint32               burst, 
    Uint32               merge, 
    TiledMapType         mapType, 
    Uint32               wayshape
    )
{    
    unsigned int cacheConfig = 0;

    if(decoder == TRUE) {
        if (mapType == 0) {// LINEAR_FRAME_MAP
            //VC1 opposite field padding is not allowable in UV separated, burst 8 and linear map
            if(!interleave)    
                burst = 0;		

            wayshape = 15;

            if (merge == 1) 
                merge = 3;

            //GDI constraint. Width should not be over 64
            if (( merge== 1) && (burst))
                burst = 0;
        } 
        else {              
            //horizontal merge constraint in tiled map
            if (merge == 1) 
                merge = 3;
        }
    }
    else { // encoder
        if (mapType == LINEAR_FRAME_MAP) {
            wayshape = 15;
            //GDI constraint. Width should not be over 64
            if ((merge == 1) && (burst))
                burst= 0;
        } 
        else {
            //horizontal merge constraint in tiled map
            if (merge == 1) 
                merge = 3; 
        }
    }	

    cacheConfig = (merge & 0x3) << 9;
    cacheConfig = cacheConfig | ((wayshape & 0xf) << 5);
    cacheConfig = cacheConfig | ((burst & 0x1) << 3);
    cacheConfig = cacheConfig | (bypass & 0x3);

    if(mapType != 0)//LINEAR_FRAME_MAP
        cacheConfig = cacheConfig | 0x00000004;

    ///{16'b0, 5'b0, merge[1:0], wayshape[3:0], 1'b0, burst[0], map[0], bypass[1:0]};
    pCache->type2.CacheMode = cacheConfig;

    return 1;
}

int GetLowDelayOutput(CodecInst *pCodecInst, DecOutputInfo *info)
{
    Uint32      val  = 0;
    Uint32      val2 = 0;
    Int32       endIndex;
    VpuRect     rectInfo;
    DecInfo*    pDecInfo;

    pDecInfo = &pCodecInst->CodecInfo->decInfo;

    info->indexFrameDisplay = VpuReadReg(pCodecInst->coreIdx, RET_DEC_PIC_DISPLAY_IDX);
    info->indexFrameDecoded = VpuReadReg(pCodecInst->coreIdx, RET_DEC_PIC_DECODED_IDX);

    val = VpuReadReg(pCodecInst->coreIdx, RET_DEC_PIC_SIZE); // decoding picture size
    info->decPicWidth  = (val>>16) & 0xFFFF;
    info->decPicHeight = (val) & 0xFFFF;

    if (info->indexFrameDecoded >= 0 && info->indexFrameDecoded < MAX_GDI_IDX)
    {
        //default value
        rectInfo.left   = 0;
        rectInfo.right  = info->decPicWidth;
        rectInfo.top    = 0;
        rectInfo.bottom = info->decPicHeight;

        if (pCodecInst->codecMode == AVC_DEC || pCodecInst->codecMode == MP2_DEC || pCodecInst->codecMode == C7_AVC_DEC || pCodecInst->codecMode == C7_MP2_DEC)
        {
            val = VpuReadReg(pCodecInst->coreIdx, RET_DEC_PIC_CROP_LEFT_RIGHT);				// frame crop information(left, right)
            val2 = VpuReadReg(pCodecInst->coreIdx, RET_DEC_PIC_CROP_TOP_BOTTOM);			// frame crop information(top, bottom)

            if (val == (Uint32)-1 || val == 0)
            {
                rectInfo.left   = 0;
                rectInfo.right  = info->decPicWidth;
            } 
            else
            {
                rectInfo.left    = ((val>>16) & 0xFFFF);
                rectInfo.right   = info->decPicWidth - (val&0xFFFF);
            }
            if (val2 == (Uint32)-1 || val2 == 0)
            {
                rectInfo.top    = 0;
                rectInfo.bottom = info->decPicHeight;
            }
            else
            {
                rectInfo.top     = ((val2>>16) & 0xFFFF);
                rectInfo.bottom	= info->decPicHeight - (val2&0xFFFF);
            }
        }

        info->rcDecoded.left   =  pDecInfo->decOutInfo[info->indexFrameDecoded].rcDecoded.left   = rectInfo.left;    
        info->rcDecoded.right  =  pDecInfo->decOutInfo[info->indexFrameDecoded].rcDecoded.right  = rectInfo.right;   
        info->rcDecoded.top    =  pDecInfo->decOutInfo[info->indexFrameDecoded].rcDecoded.top    = rectInfo.top;     
        info->rcDecoded.bottom =  pDecInfo->decOutInfo[info->indexFrameDecoded].rcDecoded.bottom = rectInfo.bottom;
    }
    else
    {
        info->rcDecoded.left   = 0;  
        info->rcDecoded.right  = info->decPicWidth;	  
        info->rcDecoded.top    = 0;  
        info->rcDecoded.bottom = info->decPicHeight;	
    }

    if (info->indexFrameDisplay >= 0 && info->indexFrameDisplay < MAX_GDI_IDX)
    {
        if (pCodecInst->codecMode == VC1_DEC || pCodecInst->codecMode == C7_VC1_DEC) // vc1 rotates decoded frame buffer region. the other std rotated whole frame buffer region.
        {
            if (pDecInfo->rotationEnable && (pDecInfo->rotationAngle==90 || pDecInfo->rotationAngle==270))
            {
                info->rcDisplay.left   = pDecInfo->decOutInfo[info->indexFrameDisplay].rcDecoded.top;                   
                info->rcDisplay.right  = pDecInfo->decOutInfo[info->indexFrameDisplay].rcDecoded.bottom;                
                info->rcDisplay.top    = pDecInfo->decOutInfo[info->indexFrameDisplay].rcDecoded.left;
                info->rcDisplay.bottom = pDecInfo->decOutInfo[info->indexFrameDisplay].rcDecoded.right;
            }
            else
            {
                info->rcDisplay.left   = pDecInfo->decOutInfo[info->indexFrameDisplay].rcDecoded.left;
                info->rcDisplay.right  = pDecInfo->decOutInfo[info->indexFrameDisplay].rcDecoded.right;
                info->rcDisplay.top    = pDecInfo->decOutInfo[info->indexFrameDisplay].rcDecoded.top;
                info->rcDisplay.bottom = pDecInfo->decOutInfo[info->indexFrameDisplay].rcDecoded.bottom;
            }
        }
        else
        {
            if (pDecInfo->rotationEnable)
            {
                switch(pDecInfo->rotationAngle)
                {
                case 90:
                case 270:
                    info->rcDisplay.left   = pDecInfo->decOutInfo[info->indexFrameDisplay].rcDecoded.top;                   
                    info->rcDisplay.right  = pDecInfo->decOutInfo[info->indexFrameDisplay].rcDecoded.bottom;                
                    info->rcDisplay.top    = pDecInfo->rotatorOutput.height - pDecInfo->decOutInfo[info->indexFrameDisplay].rcDecoded.right;
                    info->rcDisplay.bottom = pDecInfo->rotatorOutput.height - pDecInfo->decOutInfo[info->indexFrameDisplay].rcDecoded.left;
                    break;
                default:
                    info->rcDisplay.left   = pDecInfo->decOutInfo[info->indexFrameDisplay].rcDecoded.left;
                    info->rcDisplay.right  = pDecInfo->decOutInfo[info->indexFrameDisplay].rcDecoded.right;
                    info->rcDisplay.top    = pDecInfo->decOutInfo[info->indexFrameDisplay].rcDecoded.top;
                    info->rcDisplay.bottom = pDecInfo->decOutInfo[info->indexFrameDisplay].rcDecoded.bottom;
                    break;
                }

                if (pDecInfo->mirrorEnable) {
                    Uint32 temp; 
                    if (pDecInfo->mirrorDirection & MIRDIR_VER) {
                        temp = info->rcDisplay.top;
                        info->rcDisplay.top    = info->decPicHeight - info->rcDisplay.bottom;
                        info->rcDisplay.bottom = info->decPicHeight - temp;
                    }
                    if (pDecInfo->mirrorDirection & MIRDIR_HOR) {
                        temp = info->rcDisplay.left;
                        info->rcDisplay.left  = info->decPicWidth - info->rcDisplay.right;
                        info->rcDisplay.right = info->decPicWidth - temp;
                    }
                }
            }
            else
            {
                info->rcDisplay.left   = pDecInfo->decOutInfo[info->indexFrameDisplay].rcDecoded.left;
                info->rcDisplay.right  = pDecInfo->decOutInfo[info->indexFrameDisplay].rcDecoded.right;
                info->rcDisplay.top    = pDecInfo->decOutInfo[info->indexFrameDisplay].rcDecoded.top;
                info->rcDisplay.bottom = pDecInfo->decOutInfo[info->indexFrameDisplay].rcDecoded.bottom;
            }
        }

        if (info->indexFrameDisplay == info->indexFrameDecoded)
        {
            info->dispPicWidth =  info->decPicWidth;
            info->dispPicHeight = info->decPicHeight;
        }
        else
        {
            info->dispPicWidth = pDecInfo->decOutInfo[info->indexFrameDisplay].decPicWidth;
            info->dispPicHeight = pDecInfo->decOutInfo[info->indexFrameDisplay].decPicHeight;
        }
    }
    else
    {
        info->rcDisplay.left   = 0;  
        info->rcDisplay.right  = 0;  
        info->rcDisplay.top    = 0;  
        info->rcDisplay.bottom = 0;

        info->dispPicWidth = 0;
        info->dispPicHeight = 0;
    }

    val = VpuReadReg(pCodecInst->coreIdx, RET_DEC_PIC_TYPE);
    info->interlacedFrame	= (val >> 18) & 0x1;
    info->topFieldFirst     = (val >> 21) & 0x0001;	// TopFieldFirst[21]
    if (info->interlacedFrame) {
        info->picTypeFirst = (val & 0x38) >> 3;	  // pic_type of 1st field
        info->picType = val & 7;              // pic_type of 2nd field

    }
    else {
        info->picTypeFirst   = PIC_TYPE_MAX;	// no meaning
        info->picType = val & 7;
    }

    info->pictureStructure  = (val >> 19) & 0x0003;	// MbAffFlag[17], FieldPicFlag[16]
    info->repeatFirstField  = (val >> 22) & 0x0001;
    info->progressiveFrame  = (val >> 23) & 0x0003;

    if( pCodecInst->codecMode == AVC_DEC || pCodecInst->codecMode == C7_AVC_DEC)
    {
        info->nalRefIdc = (val >> 7) & 0x03;
        info->decFrameInfo = (val >> 15) & 0x0001;
        info->picStrPresent = (val >> 27) & 0x0001;
        info->picTimingStruct = (val >> 28) & 0x000f;
        //update picture type when IDR frame
        if (val & 0x40) { // 6th bit
            if (info->interlacedFrame)
                info->picTypeFirst = PIC_TYPE_IDR;
            else
                info->picType = PIC_TYPE_IDR;

        }
        info->decFrameInfo  = (val >> 16) & 0x0003;
        if (info->indexFrameDisplay>=0) {
            if (info->indexFrameDisplay == info->indexFrameDecoded)
                info->avcNpfFieldInfo = info->decFrameInfo;
            else
                info->avcNpfFieldInfo = pDecInfo->decOutInfo[info->indexFrameDisplay].decFrameInfo;
        }
        val = VpuReadReg(pCodecInst->coreIdx, RET_DEC_PIC_HRD_INFO);
        info->avcHrdInfo.cpbMinus1 = val>>2;
        info->avcHrdInfo.vclHrdParamFlag = (val>>1)&1;
        info->avcHrdInfo.nalHrdParamFlag = val&1;

        val = VpuReadReg(pCodecInst->coreIdx, RET_DEC_PIC_VUI_INFO);
        info->avcVuiInfo.fixedFrameRateFlag    = val &1;
        info->avcVuiInfo.timingInfoPresent     = (val>>1) & 0x01;
        info->avcVuiInfo.chromaLocBotField     = (val>>2) & 0x07;
        info->avcVuiInfo.chromaLocTopField     = (val>>5) & 0x07;
        info->avcVuiInfo.chromaLocInfoPresent  = (val>>8) & 0x01;
        info->avcVuiInfo.colorPrimaries        = (val>>16) & 0xff;
        info->avcVuiInfo.colorDescPresent      = (val>>24) & 0x01;
        info->avcVuiInfo.isExtSAR              = (val>>25) & 0x01;
        info->avcVuiInfo.vidFullRange          = (val>>26) & 0x01;
        info->avcVuiInfo.vidFormat             = (val>>27) & 0x07;
        info->avcVuiInfo.vidSigTypePresent     = (val>>30) & 0x01;
        info->avcVuiInfo.vuiParamPresent       = (val>>31) & 0x01;
        val = VpuReadReg(pCodecInst->coreIdx, RET_DEC_PIC_VUI_PIC_STRUCT);
        info->avcVuiInfo.vuiPicStructPresent = (val & 0x1);
        info->avcVuiInfo.vuiPicStruct = (val>>1);
    }

    info->fRateNumerator    = VpuReadReg(pCodecInst->coreIdx, RET_DEC_PIC_FRATE_NR); //Frame rate, Aspect ratio can be changed frame by frame.
    info->fRateDenominator  = VpuReadReg(pCodecInst->coreIdx, RET_DEC_PIC_FRATE_DR);
    if ((pCodecInst->codecMode == AVC_DEC || pCodecInst->codecMode == C7_AVC_DEC) && info->fRateDenominator > 0)
        info->fRateDenominator  *= 2;

    info->aspectRateInfo = VpuReadReg(pCodecInst->coreIdx, RET_DEC_PIC_ASPECT);

    // User Data
    if (pDecInfo->userDataEnable) {
        int userDataNum;
        int userDataSize;
        BYTE tempBuf[8] = {0,};

        VpuReadMem(pCodecInst->coreIdx, pDecInfo->userDataBufAddr + 0, tempBuf, 8,  VPU_USER_DATA_ENDIAN); 

        val =	((tempBuf[0]<<24) & 0xFF000000) |
            ((tempBuf[1]<<16) & 0x00FF0000) |
            ((tempBuf[2]<< 8) & 0x0000FF00) |
            ((tempBuf[3]<< 0) & 0x000000FF);

        userDataNum = (val >> 16) & 0xFFFF;
        userDataSize = (val >> 0) & 0xFFFF;
        if (userDataNum == 0)
            userDataSize = 0;

        info->decOutputExtData.userDataNum = userDataNum;
        info->decOutputExtData.userDataSize = userDataSize;

        val =	((tempBuf[4]<<24) & 0xFF000000) |
            ((tempBuf[5]<<16) & 0x00FF0000) |
            ((tempBuf[6]<< 8) & 0x0000FF00) |
            ((tempBuf[7]<< 0) & 0x000000FF);

        if (userDataNum == 0)
            info->decOutputExtData.userDataBufFull = 0;
        else
            info->decOutputExtData.userDataBufFull = (val >> 16) & 0xFFFF;

        info->decOutputExtData.activeFormat = VpuReadReg(pCodecInst->coreIdx, RET_DEC_PIC_ATSC_USER_DATA_INFO)&0xf;
    }

    info->numOfErrMBs = VpuReadReg(pCodecInst->coreIdx, RET_DEC_PIC_ERR_MB);

    val = VpuReadReg(pCodecInst->coreIdx, RET_DEC_PIC_SUCCESS);
    info->decodingSuccess = val;
    info->sequenceChanged = ((val>>20) & 0x1);
    info->streamEndFlag = ((pDecInfo->streamEndflag>>2) & 0x01);

    endIndex = (pDecInfo->openParam.wtlEnable == TRUE) ? pDecInfo->numFbsForWTL : pDecInfo->numFbsForDecoding;
    if (0 <= info->indexFrameDisplay && info->indexFrameDisplay < endIndex) {
        info->dispFrame = pDecInfo->frameBufPool[info->indexFrameDisplay];
        if (pDecInfo->openParam.wtlEnable) {	// coda980 only
            info->dispFrame = pDecInfo->frameBufPool[info->indexFrameDisplay+pDecInfo->numFbsForDecoding];
        }
    }

    if (pDecInfo->deringEnable || pDecInfo->mirrorEnable || pDecInfo->rotationEnable || pDecInfo->tiled2LinearEnable) {
        info->dispFrame = pDecInfo->rotatorOutput;
    }

    if ((pCodecInst->codecMode == AVC_DEC || pCodecInst->codecMode == C7_AVC_DEC) && pCodecInst->codecModeAux == AVC_AUX_MVC)
    {
        val = VpuReadReg(pCodecInst->coreIdx, RET_DEC_PIC_MVC_REPORT);
        info->mvcPicInfo.viewIdxDisplay = (val>>0) & 1;
        info->mvcPicInfo.viewIdxDecoded = (val>>1) & 1;
    }

    if (pCodecInst->codecMode == AVC_DEC || pCodecInst->codecMode == C7_AVC_DEC)
    {
        val = VpuReadReg(pCodecInst->coreIdx, RET_DEC_PIC_AVC_FPA_SEI0);

        if (val == (Uint32)-1) {
            info->avcFpaSei.exist = 0;
        } 
        else {
            info->avcFpaSei.exist = 1;
            info->avcFpaSei.framePackingArrangementId = val;

            val = VpuReadReg(pCodecInst->coreIdx, RET_DEC_PIC_AVC_FPA_SEI1);
            info->avcFpaSei.contentInterpretationType               = val&0x3F; // [5:0]
            info->avcFpaSei.framePackingArrangementType             = (val >> 6)&0x7F; // [12:6]
            info->avcFpaSei.framePackingArrangementExtensionFlag    = (val >> 13)&0x01; // [13]
            info->avcFpaSei.frame1SelfContainedFlag                 = (val >> 14)&0x01; // [14]
            info->avcFpaSei.frame0SelfContainedFlag                 = (val >> 15)&0x01; // [15]
            info->avcFpaSei.currentFrameIsFrame0Flag                = (val >> 16)&0x01; // [16]
            info->avcFpaSei.fieldViewsFlag                          = (val >> 17)&0x01; // [17]
            info->avcFpaSei.frame0FlippedFlag                       = (val >> 18)&0x01; // [18]
            info->avcFpaSei.spatialFlippingFlag                     = (val >> 19)&0x01; // [19]
            info->avcFpaSei.quincunxSamplingFlag                    = (val >> 20)&0x01; // [20]
            info->avcFpaSei.framePackingArrangementCancelFlag       = (val >> 21)&0x01; // [21]

            val = VpuReadReg(pCodecInst->coreIdx, RET_DEC_PIC_AVC_FPA_SEI2);
            info->avcFpaSei.framePackingArrangementRepetitionPeriod = val&0x7FFF;       // [14:0]
            info->avcFpaSei.frame1GridPositionY                     = (val >> 16)&0x0F; // [19:16]
            info->avcFpaSei.frame1GridPositionX                     = (val >> 20)&0x0F; // [23:20]
            info->avcFpaSei.frame0GridPositionY                     = (val >> 24)&0x0F; // [27:24]
            info->avcFpaSei.frame0GridPositionX                     = (val >> 28)&0x0F; // [31:28]
        }      

        info->avcPocTop = VpuReadReg(pCodecInst->coreIdx, RET_DEC_PIC_POC_TOP);
        info->avcPocBot = VpuReadReg(pCodecInst->coreIdx, RET_DEC_PIC_POC_BOT);

        if (info->interlacedFrame)
        {
            if (info->avcPocTop > info->avcPocBot) {
                info->avcPocPic = info->avcPocBot;
            } else {
                info->avcPocPic = info->avcPocTop;
            }
        }
        else
            info->avcPocPic = VpuReadReg(pCodecInst->coreIdx, RET_DEC_PIC_POC);
    }

    //pDecInfo->streamRdPtr //NA
    pDecInfo->frameDisplayFlag = VpuReadReg(pCodecInst->coreIdx, pDecInfo->frameDisplayFlagRegAddr);
    //info->consumedByte //NA
    //info->notSufficientSliceBuffer; // NA
    //info->notSufficientPsBuffer;  // NA
    //info->bytePosFrameStart //NA
    //info->bytePosFrameEnd   //NA
    //info->rdPtr //NA
    //info->wrPtr //NA

    //info->frameCycle  //NA
    //Vp8ScaleInfo vp8ScaleInfo; //NA
    //Vp8PicInfo vp8PicInfo; //NA
    //MvcPicInfo mvcPicInfo; ////NA
    //info->wprotErrReason; avcVuiInfo
    //PhysicalAddress wprotErrAddress; avcVuiInfo

    // Report Information
    //info->frameDct; //NA
    //info->progressiveSequence; //NA
    //info->mp4TimeIncrement; //NA
    //info->mp4ModuloTimeBase; //NA

    return 1;
}

RetCode AllocateLinearFrameBuffer(
    TiledMapType            mapType,
    FrameBuffer*            fbArr,
    Uint32                  numOfFrameBuffers,
    Uint32                  sizeLuma,
    Uint32                  sizeChroma
    )
{
    Uint32      i;
    BOOL        yuv422Interleave = FALSE;
    BOOL        fieldFrame       = (BOOL)(mapType == LINEAR_FIELD_MAP); 
    BOOL        cbcrInterleave   = (BOOL)(mapType == COMPRESSED_FRAME_MAP || fbArr[0].cbcrInterleave == TRUE);
    BOOL        reuseFb          = FALSE;


    if (mapType != COMPRESSED_FRAME_MAP) {
        switch (fbArr[0].format) {
        case FORMAT_YUYV:
        case FORMAT_YUYV_P10_16BIT_MSB:
        case FORMAT_YUYV_P10_16BIT_LSB:
        case FORMAT_YUYV_P10_32BIT_MSB:
        case FORMAT_YUYV_P10_32BIT_LSB:
        case FORMAT_YVYU:
        case FORMAT_YVYU_P10_16BIT_MSB:
        case FORMAT_YVYU_P10_16BIT_LSB:
        case FORMAT_YVYU_P10_32BIT_MSB:
        case FORMAT_YVYU_P10_32BIT_LSB:
        case FORMAT_UYVY:
        case FORMAT_UYVY_P10_16BIT_MSB:
        case FORMAT_UYVY_P10_16BIT_LSB:
        case FORMAT_UYVY_P10_32BIT_MSB:
        case FORMAT_UYVY_P10_32BIT_LSB:
        case FORMAT_VYUY:
        case FORMAT_VYUY_P10_16BIT_MSB:
        case FORMAT_VYUY_P10_16BIT_LSB:
        case FORMAT_VYUY_P10_32BIT_MSB:
        case FORMAT_VYUY_P10_32BIT_LSB:
            yuv422Interleave = TRUE;
            break;
        default:
            yuv422Interleave = FALSE;
            break;
        }
    }

    for (i=0; i<numOfFrameBuffers; i++) {
        reuseFb = (fbArr[i].bufY != (Uint32)-1 && fbArr[i].bufCb != (Uint32)-1 && fbArr[i].bufCr != (Uint32)-1);
        if (reuseFb == FALSE) {
            if (yuv422Interleave == TRUE) {
                fbArr[i].bufCb = (PhysicalAddress)-1;
                fbArr[i].bufCr = (PhysicalAddress)-1;
            }
            else {
                if (fbArr[i].bufCb == (PhysicalAddress)-1) {
                    fbArr[i].bufCb = fbArr[i].bufY + (sizeLuma >> fieldFrame);
                }
                if (fbArr[i].bufCr == (PhysicalAddress)-1) {
                    if (cbcrInterleave == TRUE) {
                        fbArr[i].bufCr = (PhysicalAddress)-1;
                    }
                    else {
                        fbArr[i].bufCr = fbArr[i].bufCb + (sizeChroma >> fieldFrame);
                    }
                }
            }
        }
    }

    return RETCODE_SUCCESS;
}

/* \brief   Allocate tiled framebuffer on GDI version 1.0 H/W.
 */
RetCode AllocateTiledFrameBufferGdiV1(
    TiledMapType            mapType,
    PhysicalAddress         tiledBaseAddr,
    FrameBuffer*            fbArr,
    Uint32                  numOfFrameBuffers,
    Uint32                  sizeLuma,
    Uint32                  sizeChroma,
    DRAMConfig*             pDramCfg
    )
{
    Uint32          rasLowBitsForHor;
    Uint32          i;
    Uint32          cas, ras, bank, bus;
    Uint32          lumRasTop, lumRasBot, chrRasTop, chrRasBot;
    Uint32          lumFrameRasSize, lumFieldRasSize, chrFieldRasSize;
    PhysicalAddress addrY, addrYRas;

    if (mapType == TILED_FRAME_MB_RASTER_MAP || mapType == TILED_FIELD_MB_RASTER_MAP) {
        for (i=0; i<numOfFrameBuffers; i++) {
            int  lum_top_base;
            int  lum_bot_base;
            int  chr_top_base;
            int  chr_bot_base;

            addrY = ((fbArr[i].bufY+(16384-1))&~(16384-1));

            lum_top_base = addrY;
            lum_bot_base = addrY + sizeLuma/2;
            chr_top_base = addrY + sizeLuma;
            chr_bot_base = addrY + sizeLuma + sizeChroma; // cbcr is interleaved

            lum_top_base = (lum_top_base>>12) & 0xfffff;
            lum_bot_base = (lum_bot_base>>12) & 0xfffff;
            chr_top_base = (chr_top_base>>12) & 0xfffff;
            chr_bot_base = (chr_bot_base>>12) & 0xfffff;

            fbArr[i].bufY  = ( lum_top_base           << 12) | (chr_top_base >> 8);
            fbArr[i].bufCb = ((chr_top_base & 0xff  ) << 24) | (lum_bot_base << 4) | (chr_bot_base >> 16);
            fbArr[i].bufCr = ((chr_bot_base & 0xffff) << 16) ;
            fbArr[i].bufYBot  = (PhysicalAddress)-1;
            fbArr[i].bufCbBot = (PhysicalAddress)-1;
            fbArr[i].bufCrBot = (PhysicalAddress)-1;
        }
    }
    else {
        cas  = pDramCfg->casBit;
        ras  = pDramCfg->rasBit;
        bank = pDramCfg->bankBit;
        bus  = pDramCfg->busBit;
        if (cas == 9 && bank == 2 && ras == 13) {
            rasLowBitsForHor = 3;
        }
        else if(cas == 10 && bank == 3 && ras == 13) {
            rasLowBitsForHor = 2;
        }
        else {
            return RETCODE_INVALID_PARAM;
        }

        for (i=0; i<numOfFrameBuffers; i++) {
            addrY = fbArr[i].bufY - tiledBaseAddr;
            // align base_addr to RAS boundary
            addrYRas  = (addrY + ((1<<(bank+cas+bus))-1)) >> (bank+cas+bus);
            // round up RAS lower 3(or 4) bits
            addrYRas  = ((addrYRas + ((1<<(rasLowBitsForHor))-1)) >> rasLowBitsForHor) << rasLowBitsForHor;

            chrFieldRasSize = sizeChroma>>(pDramCfg->bankBit+pDramCfg->casBit+pDramCfg->busBit);
            lumFieldRasSize = (sizeLuma>>1)>>(pDramCfg->bankBit+pDramCfg->casBit+pDramCfg->busBit);
            lumFrameRasSize = lumFieldRasSize * 2;
            lumRasTop       = addrYRas;
            lumRasBot       = lumRasTop  + lumFieldRasSize;
            chrRasTop       = lumRasTop  + lumFrameRasSize;
            chrRasBot       = chrRasTop  + chrFieldRasSize;

            fbArr[i].bufY    = (lumRasBot << 16) + lumRasTop;
            fbArr[i].bufCb   = (chrRasBot << 16) + chrRasTop;
            if (rasLowBitsForHor == 4) {
                fbArr[i].bufCr  = ((((chrRasBot>>4)<<4) + 8) << 16) + (((chrRasTop>>4)<<4) + 8);
            }
            else if (rasLowBitsForHor == 3) {
                fbArr[i].bufCr  = ((((chrRasBot>>3)<<3) + 4) << 16) + (((chrRasTop>>3)<<3) + 4);
            }
            else if (rasLowBitsForHor == 2) {
                fbArr[i].bufCr  = ((((chrRasBot>>2)<<2) + 2) << 16) + (((chrRasTop>>2)<<2) + 2);
            }
            else if (rasLowBitsForHor == 1) {
                fbArr[i].bufCr  = ((((chrRasBot>>1)<<1) + 1) << 16) + (((chrRasTop>>1)<<1) + 1);
            }
            else {
                return RETCODE_INSUFFICIENT_RESOURCE; // Invalid RasLowBit value
            }
        }
    }

    return RETCODE_SUCCESS;
}

/* \brief   Allocate tiled framebuffer on GDI version 2.0 H/W
 */
RetCode AllocateTiledFrameBufferGdiV2(
    TiledMapType            mapType,
    FrameBuffer*            fbArr,
    Uint32                  numOfFrameBuffers,
    Uint32                  sizeLuma,
    Uint32                  sizeChroma
    )
{
    Uint32          i;
    Uint32          fieldFrame;
    Uint32          sizeFb;
    BOOL            cbcrInterleave; 

    sizeFb     = sizeLuma + sizeChroma * 2;
    fieldFrame = (mapType == TILED_FIELD_V_MAP       || 
                  mapType == TILED_FIELD_NO_BANK_MAP || 
                  mapType == LINEAR_FIELD_MAP);

    for (i=0; i<numOfFrameBuffers; i++) {
        cbcrInterleave = fbArr[0].cbcrInterleave;
        fbArr[i].bufCb = fbArr[i].bufY + (sizeLuma >> fieldFrame);
        fbArr[i].bufCr = fbArr[i].bufCb + (sizeChroma >> fieldFrame);

        switch (mapType) {
        case TILED_FIELD_V_MAP:
        case TILED_FIELD_NO_BANK_MAP:
            fbArr[i].bufYBot  = fbArr[i].bufY + (sizeFb>>fieldFrame);
            fbArr[i].bufCbBot = fbArr[i].bufYBot + (sizeLuma>>fieldFrame);
            if (cbcrInterleave == FALSE) {
                fbArr[i].bufCrBot = fbArr[i].bufCbBot + (sizeChroma>>fieldFrame);
            }
            break;
        case TILED_FRAME_V_MAP:
        case TILED_FRAME_H_MAP:
        case TILED_MIXED_V_MAP:
        case TILED_FRAME_NO_BANK_MAP:
            fbArr[i].bufYBot  = fbArr[i].bufY;
            fbArr[i].bufCbBot = fbArr[i].bufCb;
            if (cbcrInterleave == FALSE) {
                fbArr[i].bufCrBot = fbArr[i].bufCr;
            }
            break;
        case TILED_FIELD_MB_RASTER_MAP:
            fbArr[i].bufYBot  = fbArr[i].bufY + (sizeLuma>>1);
            fbArr[i].bufCbBot = fbArr[i].bufCb + sizeChroma;
            break;
        default:
            fbArr[i].bufYBot  = 0;
            fbArr[i].bufCbBot = 0;
            fbArr[i].bufCrBot = 0;
            break;
        }
    }

    return RETCODE_SUCCESS;
}

Int32 ConfigSecAXICoda9(Uint32 coreIdx, Int32 codecMode, SecAxiInfo *sa, Uint32 width, Uint32 height, Uint32 profile)
{
    vpu_buffer_t vb;
    int offset;
    Uint32 MbNumX = ((width & 0xFFFF) + 15) / 16;
    Uint32 MbNumY = ((height & 0xFFFF) + 15) / 16;
    Uint32 productId;

    if (vdi_get_sram_memory(coreIdx, &vb) < 0) {
        return 0;
    }

    productId = ProductVpuGetId(coreIdx);

    if (!vb.size) {
        sa->bufSize = 0;
        sa->u.coda9.useBitEnable = 0;
        sa->u.coda9.useIpEnable = 0;
        sa->u.coda9.useDbkYEnable = 0;
        sa->u.coda9.useDbkCEnable = 0;
        sa->u.coda9.useOvlEnable = 0;
        sa->u.coda9.useBtpEnable = 0;
        return 0;
    }

    sa->bufBase = vb.phys_addr;
    offset      = 0;
    //BIT
    if (sa->u.coda9.useBitEnable) {
        sa->u.coda9.useBitEnable = 1;
        sa->u.coda9.bufBitUse = vb.phys_addr + offset;

        switch (codecMode) 
        {
        case AVC_DEC:
            offset = offset + MbNumX * 144; 
            break; // AVC
        case RV_DEC:
            offset = offset + MbNumX * 128;
            break;
        case VC1_DEC:
            offset = offset + MbNumX *  64;
            break;
        case AVS_DEC:
            offset = offset + ((MbNumX + 3)&~3) *  32; 
            break;
        case MP2_DEC:
            offset = offset + MbNumX * 0; 
            break;
        case VPX_DEC:
            offset = offset + MbNumX * 0; 
            break;
        case AVC_ENC:
            {
                if (productId == PRODUCT_ID_960)
                    offset = offset + MbNumX * 128;
                else
                    offset = offset + MbNumX * 16;
            }
            break;
        case MP4_ENC:
            offset = offset + MbNumX * 16; 
            break;
        default:
            offset = offset + MbNumX *  16; 
            break; // MPEG-4, Divx3
        }

        if (offset > vb.size)
        {
            sa->bufSize = 0;
            return 0;
        }    
    }

    //Intra Prediction, ACDC
    if (sa->u.coda9.useIpEnable)
    {
        sa->u.coda9.bufIpAcDcUse = vb.phys_addr + offset;
        sa->u.coda9.useIpEnable = 1;

        switch (codecMode) 
        {
        case AVC_DEC:
            offset = offset + MbNumX * 64; 
            break; // AVC
        case RV_DEC:
            offset = offset + MbNumX * 64;
            break;
        case VC1_DEC:
            offset = offset + MbNumX * 128;
            break;
        case AVS_DEC:
            offset = offset + MbNumX * 64;
            break;
        case MP2_DEC:
            offset = offset + MbNumX * 0; 
            break;
        case VPX_DEC:
            offset = offset + MbNumX * 64; 
            break;
        case AVC_ENC:
            offset = offset + MbNumX * 64; 
            break;
        case MP4_ENC:
            offset = offset + MbNumX * 128; 
            break;
        default:
            offset = offset + MbNumX * 128; 
            break; // MPEG-4, Divx3
        }

        if (offset > vb.size)
        {
            sa->bufSize = 0;
            return 0;
        }        
    }

    //Deblock Chroma
    if (sa->u.coda9.useDbkCEnable)
    {
        sa->u.coda9.bufDbkCUse = vb.phys_addr + offset;
        sa->u.coda9.useDbkCEnable = 1;
        switch (codecMode) 
        {
        case AVC_DEC:
            offset = (profile==66/*AVC BP decoder*/) ? offset + (MbNumX * 64) : offset + (MbNumX * 128);			
            break; // AVC
        case RV_DEC:
            offset = offset + MbNumX * 128;
            break;
        case VC1_DEC:
            offset = profile==2 ? offset + MbNumX * 256 : offset + MbNumX * 128;
            break;
        case AVS_DEC:
            offset = offset + MbNumX * 64;
            break;
        case MP2_DEC:
            offset = offset + MbNumX * 64; 
            break;
        case VPX_DEC:
            offset = offset + MbNumX * 128; 
            break;
        case MP4_DEC:
            offset = offset + MbNumX * 64; 
            break;
        case AVC_ENC:
            offset = offset + MbNumX * 64; 
            break;
        case MP4_ENC:
            offset = offset + MbNumX * 64; 
            break;
        default:
            offset = offset + MbNumX * 64; 
            break;
        }
        if (offset > vb.size)
        {
            sa->bufSize = 0;
            return 0;
        }        
    }

    //Deblock Luma
    if (sa->u.coda9.useDbkYEnable)
    {
        sa->u.coda9.bufDbkYUse = vb.phys_addr + offset;
        sa->u.coda9.useDbkYEnable = 1;

        switch (codecMode) 
        {
        case AVC_DEC:
            offset = (profile==66/*AVC BP decoder*/)? offset + (MbNumX * 64) : offset + (MbNumX * 128);			
            break; // AVC
        case RV_DEC:
            offset = offset + MbNumX * 128;
            break;
        case VC1_DEC:
            offset = profile==2 ? offset + MbNumX * 256 : offset + MbNumX * 128;            
            break;
        case AVS_DEC:
            offset = offset + MbNumX * 64;
            break;
        case MP2_DEC:
            offset = offset + MbNumX * 128; 
            break;
        case VPX_DEC:
            offset = offset + MbNumX * 128; 
            break;
        case MP4_DEC:
            offset = offset + MbNumX * 64; 
            break;
        case AVC_ENC:
            offset = offset + MbNumX * 64; 
            break;
        case MP4_ENC:
            offset = offset + MbNumX * 64; 
            break;
        default:
            offset = offset + MbNumX * 128; 
            break;
        }

        if (offset > vb.size)
        {
            sa->bufSize = 0;
            return 0;
        }        
    }

    // check the buffer address which is 256 byte is available.
    if (((offset + 255) & (~255)) > vb.size) {
        VLOG(ERR, "%s:%d NOT ENOUGH SRAM: required(%d), sram(%d)\n", __FUNCTION__, __LINE__, offset, vb.size);
        sa->bufSize = 0;
        return 0;
    }	

    //VC1 Bit-plane
    if (sa->u.coda9.useBtpEnable)
    {
        if (codecMode != VC1_DEC)
        {
            sa->u.coda9.useBtpEnable = 0;            
        }
        else
        {
            int oneBTP;

            offset = ((offset+255)&~255);            
            sa->u.coda9.bufBtpUse = vb.phys_addr + offset;
            sa->u.coda9.useBtpEnable = 1;

            oneBTP  = (((MbNumX+15)/16) * MbNumY + 1) * 2;
            oneBTP  = (oneBTP%256) ? ((oneBTP/256)+1)*256 : oneBTP;

            offset = offset + oneBTP * 3;

            if (offset > vb.size)
            {
                sa->bufSize = 0;
                return 0;
            }    
        }
    }

    //VC1 Overlap
    if (sa->u.coda9.useOvlEnable)
    {
        if (codecMode != VC1_DEC)
        {
            sa->u.coda9.useOvlEnable = 0;            
        }
        else
        {
            sa->u.coda9.bufOvlUse = vb.phys_addr + offset;
            sa->u.coda9.useOvlEnable = 1;

            offset = offset + MbNumX *  80;

            if (offset > vb.size)
            {
                sa->bufSize = 0;
                return 0;
            }        
        }        
    }

    sa->bufSize = offset;

    return 1;
}

Int32 ConfigSecAXIWave(Uint32 coreIdx, Int32 codecMode, SecAxiInfo *sa, Uint32 width, Uint32 height, Uint32 profile, Uint32 levelIdc)
{
    vpu_buffer_t vb;
    int offset;
    Uint32 size;
    Uint32 lumaSize;
    Uint32 chromaSize;
    Uint32 productId;

    UNREFERENCED_PARAMETER(codecMode);
    UNREFERENCED_PARAMETER(height);

    if (vdi_get_sram_memory(coreIdx, &vb) < 0)
        return 0;

    productId = ProductVpuGetId(coreIdx);

    if (!vb.size) {
        sa->bufSize                = 0;
        sa->u.wave4.useIpEnable    = 0;
        sa->u.wave4.useLfRowEnable = 0;
        sa->u.wave4.useBitEnable   = 0;
        sa->u.wave4.useEncImdEnable   = 0;
        sa->u.wave4.useEncLfEnable    = 0;
        sa->u.wave4.useEncRdoEnable   = 0;
        return 0;
    }
    
    sa->bufBase = vb.phys_addr;
    offset      = 0;
    /* Intra Prediction */
    if (sa->u.wave4.useIpEnable == TRUE) {
        sa->u.wave4.bufIp = sa->bufBase + offset;

        switch (productId) {
        case PRODUCT_ID_410:
            lumaSize   = VPU_ALIGN16(width); 
            chromaSize = VPU_ALIGN16(width);
            break;
        case PRODUCT_ID_412:
        case PRODUCT_ID_512:
        case PRODUCT_ID_515:
            if ( codecMode == C7_VP9_DEC ) {
                lumaSize   = VPU_ALIGN128(width) * 10/8;
                chromaSize = VPU_ALIGN128(width) * 10/8;
            }
            else {
                lumaSize   = (VPU_ALIGN16(width)*10+127)/128*128/8;
                chromaSize = (VPU_ALIGN16(width)*10+127)/128*128/8;
            }
            break;
        case PRODUCT_ID_4102:
        case PRODUCT_ID_420:
        case PRODUCT_ID_420L:
        case PRODUCT_ID_510:
            lumaSize   = (VPU_ALIGN16(width)*10+127)/128*128/8;
            chromaSize = (VPU_ALIGN16(width)*10+127)/128*128/8;
            break;
        default:
            return 0;
        }

        offset     = lumaSize + chromaSize;
        if (offset > vb.size) {
            sa->bufSize = 0;
            return 0;
        }
    }

    /* Loopfilter row */
    if (sa->u.wave4.useLfRowEnable == TRUE) {
        sa->u.wave4.bufLfRow = sa->bufBase + offset;
        if ( codecMode == C7_VP9_DEC ) {
            if ( profile == VP9_PROFILE_2)
            {
                lumaSize   = VPU_ALIGN64(width) * 8 * 10/8; /* lumaLIne   : 8 */
                chromaSize = VPU_ALIGN64(width) * 8 * 10/8; /* chromaLine : 8 */
            }
            else
            {
                lumaSize   = VPU_ALIGN64(width) * 8; /* lumaLIne   : 8 */
                chromaSize = VPU_ALIGN64(width) * 8; /* chromaLine : 8 */
            }
            offset += lumaSize+chromaSize;
        }
        else {
            Uint32 level = levelIdc/30;
            if (level >= 5) {
                size = VPU_ALIGN32(width)/2 * 13 + VPU_ALIGN64(width)*4;
            }
            else {
                size = VPU_ALIGN64(width)*13;
            }
            offset += size;
        }
        if (offset > vb.size) {
            sa->bufSize = 0;
            return 0;
        }
    }

    if (sa->u.wave4.useBitEnable == TRUE) {
        sa->u.wave4.bufBit = sa->bufBase + offset;
        if (codecMode == C7_VP9_DEC) {
            size = VPU_ALIGN64(width)/64 * (70*8);
        }
        else {
            size = 34*1024; /* Fixed size */
        }
        offset += size;
        if (offset > vb.size) {
            sa->bufSize = 0;
            return 0;
        }
    }

    if (sa->u.wave4.useEncImdEnable == TRUE) {
         /* Main   profile(8bit) : Align32(picWidth)
          * Main10 profile(10bit): Align32(picWidth)
          */
        sa->u.wave4.bufImd = sa->bufBase + offset;
        offset    += VPU_ALIGN32(width);
        if (offset > vb.size) {
            sa->bufSize = 0;
            return 0;
        }
    }

    if (sa->u.wave4.useEncLfEnable == TRUE) {
        /* Main   profile(8bit) : 
         *              Luma   = Align64(picWidth) * 5
         *              Chroma = Align64(picWidth) * 3
         * Main10 profile(10bit) :
         *              Luma   = Align64(picWidth) * 7
         *              Chroma = Align64(picWidth) * 5
         */
        Uint32 luma   = (profile == HEVC_PROFILE_MAIN10 ? 7 : 5);
        Uint32 chroma = (profile == HEVC_PROFILE_MAIN10 ? 5 : 3);
        
        sa->u.wave4.bufLf = sa->bufBase + offset;

        lumaSize   = VPU_ALIGN64(width) * luma;
        chromaSize = VPU_ALIGN64(width) * chroma;
        offset    += lumaSize + chromaSize;
        
        if (offset > vb.size) {
            sa->bufSize = 0;
            return 0;
        }
    }

    if (sa->u.wave4.useEncRdoEnable == TRUE) {

        switch (productId) {
        case PRODUCT_ID_520:
            sa->u.wave4.bufRdo = sa->bufBase + offset;
            offset += 288* VPU_ALIGN64(width)/64;
            break;
        default:
         /* Main   profile(8bit) : (Align64(picWidth)/32) * 22*16
         * Main10 profile(10bit): (Align64(picWidth)/32) * 22*16
         */
        sa->u.wave4.bufRdo = sa->bufBase + offset;
        offset    += (VPU_ALIGN64(width)/32) * 22*16;
        }
        
        if (offset > vb.size) {
            sa->bufSize = 0;
            return 0;
        }
    }

    sa->bufSize = offset;

    return 1;
}

Int32 ConfigSecAXICoda7(Uint32 coreIdx, CodStd codStd, SecAxiInfo *sa, Uint32 width, Uint32 height, Uint32 profile)
{
    vpu_buffer_t vb;
    int offset;
    Uint32 size;
    Uint32 lumaSize;
    Uint32 chromaSize;
    Uint32 MbNumX = ((width & 0xFFFF) + 15) / 16;
    Uint32 MbNumY = ((height & 0xFFFF) + 15) / 16;

    if (vdi_get_sram_memory(coreIdx, &vb) < 0)
        return 0;

    if (!vb.size) {
        sa->bufSize                = 0;
        sa->u.wave4.useIpEnable    = 0;
        sa->u.wave4.useLfRowEnable = 0;
        sa->u.wave4.useBitEnable   = 0;
        sa->u.coda9.useBitEnable    = 0;
        sa->u.coda9.useIpEnable     = 0;
        sa->u.coda9.useDbkYEnable   = 0;
        sa->u.coda9.useDbkCEnable   = 0;
        sa->u.coda9.useOvlEnable    = 0;
        sa->u.coda9.useMeEnable     = 0;
        return 0;
    }

    sa->bufBase = vb.phys_addr;
    offset      = 0;

    if (codStd == STD_HEVC) {
        /* Intra Prediction */
        if (sa->u.wave4.useIpEnable == TRUE) {
            sa->u.wave4.bufIp = sa->bufBase + offset;
            lumaSize  = (VPU_ALIGN16(width)*10+127)/128*128/8;
            chromaSize = (VPU_ALIGN16(width)*10+127)/128*128/8;

            offset     = lumaSize + chromaSize;
            if (offset > vb.size) {
                sa->bufSize = 0;
                return 0;
            }
        }

        /* Loopfilter row */
        if (sa->u.wave4.useLfRowEnable == TRUE) {
            /* Main   profile: Luma 5 lines + Chroma 3 lines
                Main10 profile: Luma 7 lines + Chroma 4 lines
            */
            Uint32 lumaLines   = (profile == HEVC_PROFILE_MAIN10 ? 7 : 5);
            Uint32 chromaLines = (profile == HEVC_PROFILE_MAIN10 ? 4 : 3);

            sa->u.wave4.bufLfRow = sa->bufBase + offset;
            lumaSize   = VPU_ALIGN64(width) * lumaLines;
            chromaSize = VPU_ALIGN64(width) * chromaLines;

            offset    += lumaSize + chromaSize;
            if (offset > vb.size) {
                sa->bufSize = 0;
                return 0;
            }
        }

        if (sa->u.wave4.useBitEnable == TRUE) {
            sa->u.wave4.bufBit = sa->bufBase + offset;
            size = VPU_ALIGN64(width) * 4;

            offset += size;
            if (offset > vb.size) {
                sa->bufSize = 0;
                return 0;
            }
        }
    }
    else { // for legacy codec
        /* BIT, VC1 Bit-plane */
        /* Coda7Q use same register for BIT and Bit-plane */
        if (sa->u.coda9.useBitEnable == TRUE) {
            sa->u.coda9.bufBitUse = sa->bufBase + offset;
            sa->u.coda9.useBitEnable = 1;

            switch (codStd) 
            {
            case STD_AVC:
                offset = offset + MbNumX * 128; 
                break; // AVC
            case STD_RV:
                offset = offset + MbNumX * 128;
                break;
            case STD_VC1:
                {
                    int oneBTP;

                    oneBTP  = (((MbNumX+15)/16) * MbNumY + 1) * 2;
                    oneBTP  = (oneBTP%256) ? ((oneBTP/256)+1)*256 : oneBTP;

                    offset = offset + oneBTP * 3;
                    offset = offset + MbNumX *  64;
                }
                break;
            case STD_AVS:
                offset = offset + ((MbNumX + 3)&~3) *  32; 
                break;
            case STD_MPEG2:
                offset = offset + MbNumX * 0; 
                break;
            case STD_VP8:
                offset = offset + MbNumX * 128; 
                break;
            default:
                offset = offset + MbNumX *  16; 
                break; // MPEG-4, Divx3
            }

            if (offset > vb.size) {
                sa->bufSize = 0;
                return 0;
            }
        }

        /* Intra Prediction, ACDC */
        if (sa->u.coda9.useIpEnable == TRUE) {
            sa->u.coda9.bufIpAcDcUse = sa->bufBase + offset;
            sa->u.coda9.useIpEnable = 1;

            switch (codStd) 
            {
            case STD_AVC:
                offset = offset + MbNumX * 64 * 2; // MBAFF needs double buffer; 
                break; // AVC
            case STD_RV:
                offset = offset + MbNumX * 64;
                break;
            case STD_VC1:
                offset = offset + MbNumX * 128;
                break;
            case STD_AVS:
                offset = offset + MbNumX * 64;
                break;
            case STD_MPEG2:
                offset = offset + MbNumX * 0; 
                break;
            case STD_VP8:
                offset = offset + MbNumX * 64; 
                break;
            default:
                offset = offset + MbNumX * 128; 
                break; // MPEG-4, Divx3
            }

            if (offset > vb.size) {
                sa->bufSize = 0;
                return 0;
            }
        }

        /* Deblock Chroma */
        if (sa->u.coda9.useDbkCEnable == TRUE) {
            sa->u.coda9.bufDbkCUse = sa->bufBase + offset;
            sa->u.coda9.useDbkCEnable = 1;
            switch (codStd) 
            {
            case STD_AVC:
                offset = (profile==66 || profile==0) ? (offset + (MbNumX * 64)) : (offset + (MbNumX * 128));
                break; // AVC
            case STD_RV:
                offset = offset + MbNumX * 128;
                break;
            case STD_VC1:
                offset = profile==2 ? offset + MbNumX * 256 : offset + MbNumX * 128;
                offset = (offset + 255) & (~255);
                break;
            case STD_AVS:
                offset = offset + MbNumX * 128;
                break;
            case STD_MPEG2:
                offset = offset + MbNumX * 64; 
                break;
            case STD_VP8:
                offset = offset + MbNumX * 128; 
                break;
            default:
                offset = offset + MbNumX * 64; 
                break;
            }

            if (offset > vb.size) {
                sa->bufSize = 0;
                return 0;
            }
        }

        /* Deblock Luma */
        if (sa->u.coda9.useDbkYEnable == TRUE) {
            sa->u.coda9.bufDbkYUse = sa->bufBase + offset;
            sa->u.coda9.useDbkYEnable = 1;

            switch (codStd) 
            {
            case STD_AVC:
                offset = (profile==66/*AVC BP decoder*/ || profile==0/* AVC encoder */) ? (offset + (MbNumX * 64)) : (offset + (MbNumX * 128));
                break; // AVC
            case STD_RV:
                offset = offset + MbNumX * 128;
                break;
            case STD_VC1:
                offset = profile==2 ? offset + MbNumX * 256 : offset + MbNumX * 128;
                offset = (offset + 255) & (~255);
                break;
            case STD_AVS:
                offset = offset + MbNumX * 128;
                break;
            case STD_MPEG2:
                offset = offset + MbNumX * 128; 
                break;
            case STD_VP8:
                offset = offset + MbNumX * 128; 
                break;
            default:
                offset = offset + MbNumX * 128; 
                break;
            }

            if (offset > vb.size) {
                sa->bufSize = 0;
                return 0;
            }
        }

        // check the buffer address which is 256 byte is available.
        if (((offset + 255) & (~255)) > vb.size) {
            sa->bufSize = 0;
            return 0;
        }

        /* Motion Estimation */
        if (sa->u.coda9.useMeEnable == TRUE) {
            offset = (offset + 255) & (~255);
            sa->u.coda9.bufMeUse    = sa->bufBase + offset;
            sa->u.coda9.useMeEnable = 1;

            offset = offset + MbNumX*16*36 + 2048;

            if (offset > vb.size)
            {
                sa->bufSize = 0;
                return 0;
            }
        }

        /* VC1 Overlap */
        if (sa->u.coda9.useOvlEnable == TRUE) {
            if (codStd != STD_VC1) {
                sa->u.coda9.useOvlEnable = 0;
            }
            else {
                sa->u.coda9.bufOvlUse = sa->bufBase + offset;
                sa->u.coda9.useOvlEnable = 1;

                offset = offset + MbNumX *  80;

                if (offset > vb.size)
                {
                    sa->bufSize = 0;
                    return 0;
                }
            }
        }
    }

    sa->bufSize = offset;

    return 1;
}

static int SetTiledMapTypeV20(Uint32 coreIdx, TiledMapConfig *pMapCfg, int mapType, int width, int interleave)
{
#define GEN_XY2AXI(INV,ZER,TBX,XY,BIT)      ((INV)<<7 | (ZER)<<6 | (TBX)<<5 | (XY)<<4 | (BIT))
#define GEN_CONFIG(A,B,C,D,E,F,G,H,I)       ((A)<<20 | (B)<<19 | (C)<<18 | (D)<<17 | (E)<<16 | (F)<<12 | (G)<<8 | (H)<<4 | (I))
#define X_SEL                               0
#define Y_SEL                               1

    const int luma_map = 0x40; // zero, inv = 1'b0, zero = 1'b1 , tbxor = 1'b0, xy = 1'b0, bit = 4'd0
    const int chro_map = 0x40; // zero, inv = 1'b0, zero = 1'b1 , tbxor = 1'b0, xy = 1'b0, bit = 4'd0
    int width_chr;
    int i;

    pMapCfg->mapType = mapType;

    for (i=0; i<32 ; i=i+1) 
    {
        pMapCfg->xy2axiLumMap[i] = luma_map;
        pMapCfg->xy2axiChrMap[i] = chro_map;
    }
    pMapCfg->xy2axiConfig = 0;

    width_chr = (interleave) ? width : width/2;

    switch(mapType)
    {
    case LINEAR_FRAME_MAP:
    case LINEAR_FIELD_MAP:
        pMapCfg->xy2axiConfig = 0;	
        return 1;
        break;
    case TILED_FRAME_V_MAP:
        {
            // luma
            pMapCfg->xy2axiLumMap[ 3] = GEN_XY2AXI(0,0,0,Y_SEL,0);
            pMapCfg->xy2axiLumMap[ 4] = GEN_XY2AXI(0,0,0,Y_SEL,1);
            pMapCfg->xy2axiLumMap[ 5] = GEN_XY2AXI(0,0,0,Y_SEL,2);
            pMapCfg->xy2axiLumMap[ 6] = GEN_XY2AXI(0,0,0,Y_SEL,3);
            pMapCfg->xy2axiLumMap[ 7] = GEN_XY2AXI(0,0,0,X_SEL,3);
            pMapCfg->xy2axiLumMap[ 8] = GEN_XY2AXI(0,0,0,X_SEL,4);
            pMapCfg->xy2axiLumMap[ 9] = GEN_XY2AXI(0,0,0,X_SEL,5);
            pMapCfg->xy2axiLumMap[10] = GEN_XY2AXI(0,0,0,X_SEL,6);
            pMapCfg->xy2axiLumMap[11] = GEN_XY2AXI(0,0,0,Y_SEL,4);
            pMapCfg->xy2axiLumMap[12] = GEN_XY2AXI(0,0,0,X_SEL,7);
            pMapCfg->xy2axiLumMap[13] = GEN_XY2AXI(0,0,0,Y_SEL,5);

            if (width <= 512) 
            {
                pMapCfg->xy2axiLumMap[14] = GEN_XY2AXI(0,0,0,X_SEL, 8);
                pMapCfg->xy2axiLumMap[15] = GEN_XY2AXI(0,0,0,Y_SEL, 6);
                pMapCfg->xy2axiLumMap[16] = GEN_XY2AXI(0,0,0,Y_SEL, 7);
                pMapCfg->xy2axiLumMap[17] = GEN_XY2AXI(0,0,0,Y_SEL, 8);
                pMapCfg->xy2axiLumMap[18] = GEN_XY2AXI(0,0,0,Y_SEL, 9);
                pMapCfg->xy2axiLumMap[19] = GEN_XY2AXI(0,0,0,Y_SEL,10);
                pMapCfg->xy2axiLumMap[20] = GEN_XY2AXI(0,0,0,Y_SEL,11);
            }
            else if (width <= 1024) 
            {
                pMapCfg->xy2axiLumMap[14] = GEN_XY2AXI(0,0,0,X_SEL, 8);
                pMapCfg->xy2axiLumMap[15] = GEN_XY2AXI(0,0,0,X_SEL, 9);
                pMapCfg->xy2axiLumMap[16] = GEN_XY2AXI(0,0,0,Y_SEL, 6);
                pMapCfg->xy2axiLumMap[17] = GEN_XY2AXI(0,0,0,Y_SEL, 7);
                pMapCfg->xy2axiLumMap[18] = GEN_XY2AXI(0,0,0,Y_SEL, 8);
                pMapCfg->xy2axiLumMap[19] = GEN_XY2AXI(0,0,0,Y_SEL, 9);
                pMapCfg->xy2axiLumMap[20] = GEN_XY2AXI(0,0,0,Y_SEL,10);
                pMapCfg->xy2axiLumMap[21] = GEN_XY2AXI(0,0,0,Y_SEL,11);
            }
            else if (width <= 2048) 
            {
                pMapCfg->xy2axiLumMap[14] = GEN_XY2AXI(0,0,0,X_SEL, 8);
                pMapCfg->xy2axiLumMap[15] = GEN_XY2AXI(0,0,0,X_SEL, 9);
                pMapCfg->xy2axiLumMap[16] = GEN_XY2AXI(0,0,0,X_SEL,10);
                pMapCfg->xy2axiLumMap[17] = GEN_XY2AXI(0,0,0,Y_SEL, 6);
                pMapCfg->xy2axiLumMap[18] = GEN_XY2AXI(0,0,0,Y_SEL, 7);
                pMapCfg->xy2axiLumMap[19] = GEN_XY2AXI(0,0,0,Y_SEL, 8);
                pMapCfg->xy2axiLumMap[20] = GEN_XY2AXI(0,0,0,Y_SEL, 9);
                pMapCfg->xy2axiLumMap[21] = GEN_XY2AXI(0,0,0,Y_SEL,10);
                pMapCfg->xy2axiLumMap[22] = GEN_XY2AXI(0,0,0,Y_SEL,11);
            }
            else 
            { // 4K size
                pMapCfg->xy2axiLumMap[14] = GEN_XY2AXI(0,0,0,X_SEL, 8);
                pMapCfg->xy2axiLumMap[15] = GEN_XY2AXI(0,0,0,X_SEL, 9);
                pMapCfg->xy2axiLumMap[16] = GEN_XY2AXI(0,0,0,X_SEL,10);
                pMapCfg->xy2axiLumMap[17] = GEN_XY2AXI(0,0,0,X_SEL,11);
                pMapCfg->xy2axiLumMap[18] = GEN_XY2AXI(0,0,0,Y_SEL, 6);
                pMapCfg->xy2axiLumMap[19] = GEN_XY2AXI(0,0,0,Y_SEL, 7);
                pMapCfg->xy2axiLumMap[20] = GEN_XY2AXI(0,0,0,Y_SEL, 8);
                pMapCfg->xy2axiLumMap[21] = GEN_XY2AXI(0,0,0,Y_SEL, 9);
                pMapCfg->xy2axiLumMap[22] = GEN_XY2AXI(0,0,0,Y_SEL,10);
                pMapCfg->xy2axiLumMap[23] = GEN_XY2AXI(0,0,0,Y_SEL,11);
            }
            // chroma
            pMapCfg->xy2axiChrMap[ 3] = GEN_XY2AXI(0,0,0,Y_SEL, 0);
            pMapCfg->xy2axiChrMap[ 4] = GEN_XY2AXI(0,0,0,Y_SEL, 1);
            pMapCfg->xy2axiChrMap[ 5] = GEN_XY2AXI(0,0,0,Y_SEL, 2);
            pMapCfg->xy2axiChrMap[ 6] = GEN_XY2AXI(0,0,0,Y_SEL, 3);
            pMapCfg->xy2axiChrMap[ 7] = GEN_XY2AXI(0,0,0,X_SEL, 3);
            pMapCfg->xy2axiChrMap[ 8] = GEN_XY2AXI(0,0,0,X_SEL, 4);
            pMapCfg->xy2axiChrMap[ 9] = GEN_XY2AXI(0,0,0,X_SEL, 5);
            pMapCfg->xy2axiChrMap[10] = GEN_XY2AXI(0,0,0,X_SEL, 6);
            pMapCfg->xy2axiChrMap[11] = GEN_XY2AXI(0,0,0,Y_SEL, 5);
            pMapCfg->xy2axiChrMap[12] = GEN_XY2AXI(1,0,0,X_SEL, 7);
            pMapCfg->xy2axiChrMap[13] = GEN_XY2AXI(1,0,0,Y_SEL, 4);

            if (width_chr <= 512) 
            {
                pMapCfg->xy2axiChrMap[14] = GEN_XY2AXI(0,0,0,X_SEL, 8);
                pMapCfg->xy2axiChrMap[15] = GEN_XY2AXI(0,0,0,Y_SEL, 6);
                pMapCfg->xy2axiChrMap[16] = GEN_XY2AXI(0,0,0,Y_SEL, 7);
                pMapCfg->xy2axiChrMap[17] = GEN_XY2AXI(0,0,0,Y_SEL, 8);
                pMapCfg->xy2axiChrMap[18] = GEN_XY2AXI(0,0,0,Y_SEL, 9);
                pMapCfg->xy2axiChrMap[19] = GEN_XY2AXI(0,0,0,Y_SEL,10);
                pMapCfg->xy2axiChrMap[20] = GEN_XY2AXI(0,0,0,Y_SEL,11);
            } 
            else if (width_chr <= 1024) 
            {
                pMapCfg->xy2axiChrMap[14] = GEN_XY2AXI(0,0,0,X_SEL, 8);
                pMapCfg->xy2axiChrMap[15] = GEN_XY2AXI(0,0,0,X_SEL, 9);
                pMapCfg->xy2axiChrMap[16] = GEN_XY2AXI(0,0,0,Y_SEL, 6);
                pMapCfg->xy2axiChrMap[17] = GEN_XY2AXI(0,0,0,Y_SEL, 7);
                pMapCfg->xy2axiChrMap[18] = GEN_XY2AXI(0,0,0,Y_SEL, 8);
                pMapCfg->xy2axiChrMap[19] = GEN_XY2AXI(0,0,0,Y_SEL, 9);
                pMapCfg->xy2axiChrMap[20] = GEN_XY2AXI(0,0,0,Y_SEL,10);
                pMapCfg->xy2axiChrMap[21] = GEN_XY2AXI(0,0,0,Y_SEL,11);
            } 
            else if (width_chr <= 2048) 
            {
                pMapCfg->xy2axiChrMap[14] = GEN_XY2AXI(0,0,0,X_SEL, 8);
                pMapCfg->xy2axiChrMap[15] = GEN_XY2AXI(0,0,0,X_SEL, 9);
                pMapCfg->xy2axiChrMap[16] = GEN_XY2AXI(0,0,0,X_SEL,10);
                pMapCfg->xy2axiChrMap[17] = GEN_XY2AXI(0,0,0,Y_SEL, 6);
                pMapCfg->xy2axiChrMap[18] = GEN_XY2AXI(0,0,0,Y_SEL, 7);
                pMapCfg->xy2axiChrMap[19] = GEN_XY2AXI(0,0,0,Y_SEL, 8);
                pMapCfg->xy2axiChrMap[20] = GEN_XY2AXI(0,0,0,Y_SEL, 9);
                pMapCfg->xy2axiChrMap[21] = GEN_XY2AXI(0,0,0,Y_SEL,10);
                pMapCfg->xy2axiChrMap[22] = GEN_XY2AXI(0,0,0,Y_SEL,11);
            } 
            else 
            { // 4K size
                pMapCfg->xy2axiChrMap[14] = GEN_XY2AXI(0,0,0,X_SEL, 8);
                pMapCfg->xy2axiChrMap[15] = GEN_XY2AXI(0,0,0,X_SEL, 9);
                pMapCfg->xy2axiChrMap[16] = GEN_XY2AXI(0,0,0,X_SEL,10);
                pMapCfg->xy2axiChrMap[17] = GEN_XY2AXI(0,0,0,X_SEL,11);
                pMapCfg->xy2axiChrMap[18] = GEN_XY2AXI(0,0,0,Y_SEL, 6);
                pMapCfg->xy2axiChrMap[19] = GEN_XY2AXI(0,0,0,Y_SEL, 7);
                pMapCfg->xy2axiChrMap[20] = GEN_XY2AXI(0,0,0,Y_SEL, 8);
                pMapCfg->xy2axiChrMap[21] = GEN_XY2AXI(0,0,0,Y_SEL, 9);
                pMapCfg->xy2axiChrMap[22] = GEN_XY2AXI(0,0,0,Y_SEL,10);
                pMapCfg->xy2axiChrMap[23] = GEN_XY2AXI(0,0,0,Y_SEL,11);
            }
            // xy2axiConfig
            pMapCfg->xy2axiConfig = GEN_CONFIG(0,0,0,1,1,15, 0,15, 0);
            break;
        }	// case TILED_FRAME_V_MAP
    case TILED_FRAME_H_MAP:
        {
            pMapCfg->xy2axiLumMap[ 3] = GEN_XY2AXI(0,0,0,X_SEL, 3);
            pMapCfg->xy2axiLumMap[ 4] = GEN_XY2AXI(0,0,0,X_SEL, 4);
            pMapCfg->xy2axiLumMap[ 5] = GEN_XY2AXI(0,0,0,X_SEL, 5);
            pMapCfg->xy2axiLumMap[ 6] = GEN_XY2AXI(0,0,0,X_SEL, 6);
            pMapCfg->xy2axiLumMap[ 7] = GEN_XY2AXI(0,0,0,Y_SEL, 0);
            pMapCfg->xy2axiLumMap[ 8] = GEN_XY2AXI(0,0,0,Y_SEL, 1);
            pMapCfg->xy2axiLumMap[ 9] = GEN_XY2AXI(0,0,0,Y_SEL, 2);
            pMapCfg->xy2axiLumMap[10] = GEN_XY2AXI(0,0,0,Y_SEL, 3);
            pMapCfg->xy2axiLumMap[11] = GEN_XY2AXI(0,0,0,Y_SEL, 4);
            pMapCfg->xy2axiLumMap[12] = GEN_XY2AXI(0,0,0,X_SEL, 7);
            pMapCfg->xy2axiLumMap[13] = GEN_XY2AXI(0,0,0,Y_SEL, 5);
            if (width <= 512) 
            {
                pMapCfg->xy2axiLumMap[14] = GEN_XY2AXI(0,0,0,X_SEL, 8);
                pMapCfg->xy2axiLumMap[15] = GEN_XY2AXI(0,0,0,Y_SEL, 6);
                pMapCfg->xy2axiLumMap[16] = GEN_XY2AXI(0,0,0,Y_SEL, 7);
                pMapCfg->xy2axiLumMap[17] = GEN_XY2AXI(0,0,0,Y_SEL, 8);
                pMapCfg->xy2axiLumMap[18] = GEN_XY2AXI(0,0,0,Y_SEL, 9);
                pMapCfg->xy2axiLumMap[19] = GEN_XY2AXI(0,0,0,Y_SEL,10);
                pMapCfg->xy2axiLumMap[20] = GEN_XY2AXI(0,0,0,Y_SEL,11);
            } 
            else if (width <= 1024) 
            {
                pMapCfg->xy2axiLumMap[14] = GEN_XY2AXI(0,0,0,X_SEL, 8);
                pMapCfg->xy2axiLumMap[15] = GEN_XY2AXI(0,0,0,X_SEL, 9);
                pMapCfg->xy2axiLumMap[16] = GEN_XY2AXI(0,0,0,Y_SEL, 6);
                pMapCfg->xy2axiLumMap[17] = GEN_XY2AXI(0,0,0,Y_SEL, 7);
                pMapCfg->xy2axiLumMap[18] = GEN_XY2AXI(0,0,0,Y_SEL, 8);
                pMapCfg->xy2axiLumMap[19] = GEN_XY2AXI(0,0,0,Y_SEL, 9);
                pMapCfg->xy2axiLumMap[20] = GEN_XY2AXI(0,0,0,Y_SEL,10);
                pMapCfg->xy2axiLumMap[21] = GEN_XY2AXI(0,0,0,Y_SEL,11);
            }
            else if (width <= 2048) 
            {
                pMapCfg->xy2axiLumMap[14] = GEN_XY2AXI(0,0,0,X_SEL, 8);
                pMapCfg->xy2axiLumMap[15] = GEN_XY2AXI(0,0,0,X_SEL, 9);
                pMapCfg->xy2axiLumMap[16] = GEN_XY2AXI(0,0,0,X_SEL,10);
                pMapCfg->xy2axiLumMap[17] = GEN_XY2AXI(0,0,0,Y_SEL, 6);
                pMapCfg->xy2axiLumMap[18] = GEN_XY2AXI(0,0,0,Y_SEL, 7);
                pMapCfg->xy2axiLumMap[19] = GEN_XY2AXI(0,0,0,Y_SEL, 8);
                pMapCfg->xy2axiLumMap[20] = GEN_XY2AXI(0,0,0,Y_SEL, 9);
                pMapCfg->xy2axiLumMap[21] = GEN_XY2AXI(0,0,0,Y_SEL,10);
                pMapCfg->xy2axiLumMap[22] = GEN_XY2AXI(0,0,0,Y_SEL,11);
            } 
            else 
            { // 4K size
                pMapCfg->xy2axiLumMap[14] = GEN_XY2AXI(0,0,0,X_SEL, 8);
                pMapCfg->xy2axiLumMap[15] = GEN_XY2AXI(0,0,0,X_SEL, 9);
                pMapCfg->xy2axiLumMap[16] = GEN_XY2AXI(0,0,0,X_SEL,10);
                pMapCfg->xy2axiLumMap[17] = GEN_XY2AXI(0,0,0,X_SEL,11);
                pMapCfg->xy2axiLumMap[18] = GEN_XY2AXI(0,0,0,Y_SEL, 6);
                pMapCfg->xy2axiLumMap[19] = GEN_XY2AXI(0,0,0,Y_SEL, 7);
                pMapCfg->xy2axiLumMap[20] = GEN_XY2AXI(0,0,0,Y_SEL, 8);
                pMapCfg->xy2axiLumMap[21] = GEN_XY2AXI(0,0,0,Y_SEL, 9);
                pMapCfg->xy2axiLumMap[22] = GEN_XY2AXI(0,0,0,Y_SEL,10);
                pMapCfg->xy2axiLumMap[23] = GEN_XY2AXI(0,0,0,Y_SEL,11);
            }
            pMapCfg->xy2axiChrMap[ 3] = GEN_XY2AXI(0,0,0,X_SEL, 3);
            pMapCfg->xy2axiChrMap[ 4] = GEN_XY2AXI(0,0,0,X_SEL, 4);
            pMapCfg->xy2axiChrMap[ 5] = GEN_XY2AXI(0,0,0,X_SEL, 5);
            pMapCfg->xy2axiChrMap[ 6] = GEN_XY2AXI(0,0,0,X_SEL, 6);
            pMapCfg->xy2axiChrMap[ 7] = GEN_XY2AXI(0,0,0,Y_SEL, 0);
            pMapCfg->xy2axiChrMap[ 8] = GEN_XY2AXI(0,0,0,Y_SEL, 1);
            pMapCfg->xy2axiChrMap[ 9] = GEN_XY2AXI(0,0,0,Y_SEL, 2);
            pMapCfg->xy2axiChrMap[10] = GEN_XY2AXI(0,0,0,Y_SEL, 3);
            pMapCfg->xy2axiChrMap[11] = GEN_XY2AXI(0,0,0,Y_SEL, 5);
            pMapCfg->xy2axiChrMap[12] = GEN_XY2AXI(1,0,0,X_SEL, 7);
            pMapCfg->xy2axiChrMap[13] = GEN_XY2AXI(1,0,0,Y_SEL, 4);
            if (width_chr <= 512) 
            {
                pMapCfg->xy2axiChrMap[14] = GEN_XY2AXI(0,0,0,X_SEL, 8);
                pMapCfg->xy2axiChrMap[15] = GEN_XY2AXI(0,0,0,Y_SEL, 6);
                pMapCfg->xy2axiChrMap[16] = GEN_XY2AXI(0,0,0,Y_SEL, 7);
                pMapCfg->xy2axiChrMap[17] = GEN_XY2AXI(0,0,0,Y_SEL, 8);
                pMapCfg->xy2axiChrMap[18] = GEN_XY2AXI(0,0,0,Y_SEL, 9);
                pMapCfg->xy2axiChrMap[19] = GEN_XY2AXI(0,0,0,Y_SEL,10);
                pMapCfg->xy2axiChrMap[20] = GEN_XY2AXI(0,0,0,Y_SEL,11);
            } 
            else if (width_chr <= 1024) 
            {
                pMapCfg->xy2axiChrMap[14] = GEN_XY2AXI(0,0,0,X_SEL, 8);
                pMapCfg->xy2axiChrMap[15] = GEN_XY2AXI(0,0,0,X_SEL, 9);
                pMapCfg->xy2axiChrMap[16] = GEN_XY2AXI(0,0,0,Y_SEL, 6);
                pMapCfg->xy2axiChrMap[17] = GEN_XY2AXI(0,0,0,Y_SEL, 7);
                pMapCfg->xy2axiChrMap[18] = GEN_XY2AXI(0,0,0,Y_SEL, 8);
                pMapCfg->xy2axiChrMap[19] = GEN_XY2AXI(0,0,0,Y_SEL, 9);
                pMapCfg->xy2axiChrMap[20] = GEN_XY2AXI(0,0,0,Y_SEL,10);
                pMapCfg->xy2axiChrMap[21] = GEN_XY2AXI(0,0,0,Y_SEL,11);
            } 
            else if (width_chr <= 2048) 
            {
                pMapCfg->xy2axiChrMap[14] = GEN_XY2AXI(0,0,0,X_SEL, 8);
                pMapCfg->xy2axiChrMap[15] = GEN_XY2AXI(0,0,0,X_SEL, 9);
                pMapCfg->xy2axiChrMap[16] = GEN_XY2AXI(0,0,0,X_SEL,10);
                pMapCfg->xy2axiChrMap[17] = GEN_XY2AXI(0,0,0,Y_SEL, 6);
                pMapCfg->xy2axiChrMap[18] = GEN_XY2AXI(0,0,0,Y_SEL, 7);
                pMapCfg->xy2axiChrMap[19] = GEN_XY2AXI(0,0,0,Y_SEL, 8);
                pMapCfg->xy2axiChrMap[20] = GEN_XY2AXI(0,0,0,Y_SEL, 9);
                pMapCfg->xy2axiChrMap[21] = GEN_XY2AXI(0,0,0,Y_SEL,10);
                pMapCfg->xy2axiChrMap[22] = GEN_XY2AXI(0,0,0,Y_SEL,11);
            } 
            else
            { // 4K size
                pMapCfg->xy2axiChrMap[14] = GEN_XY2AXI(0,0,0,X_SEL, 8);
                pMapCfg->xy2axiChrMap[15] = GEN_XY2AXI(0,0,0,X_SEL, 9);
                pMapCfg->xy2axiChrMap[16] = GEN_XY2AXI(0,0,0,X_SEL,10);
                pMapCfg->xy2axiChrMap[17] = GEN_XY2AXI(0,0,0,X_SEL,11);
                pMapCfg->xy2axiChrMap[18] = GEN_XY2AXI(0,0,0,Y_SEL, 6);
                pMapCfg->xy2axiChrMap[19] = GEN_XY2AXI(0,0,0,Y_SEL, 7);
                pMapCfg->xy2axiChrMap[20] = GEN_XY2AXI(0,0,0,Y_SEL, 8);
                pMapCfg->xy2axiChrMap[21] = GEN_XY2AXI(0,0,0,Y_SEL, 9);
                pMapCfg->xy2axiChrMap[22] = GEN_XY2AXI(0,0,0,Y_SEL,10);
                pMapCfg->xy2axiChrMap[23] = GEN_XY2AXI(0,0,0,Y_SEL,11);
            }
            // xy2axiConfig
            pMapCfg->xy2axiConfig = GEN_CONFIG(0,0,0,1,0,15,15,15,15);
            break;
        }	//case TILED_FRAME_H_MAP:
    case TILED_FIELD_V_MAP:
        {
            pMapCfg->xy2axiLumMap[ 3] = GEN_XY2AXI(0,0,0,Y_SEL, 0);
            pMapCfg->xy2axiLumMap[ 4] = GEN_XY2AXI(0,0,0,Y_SEL, 1);
            pMapCfg->xy2axiLumMap[ 5] = GEN_XY2AXI(0,0,0,Y_SEL, 2);
            pMapCfg->xy2axiLumMap[ 6] = GEN_XY2AXI(0,0,0,Y_SEL, 3);
            pMapCfg->xy2axiLumMap[ 7] = GEN_XY2AXI(0,0,0,X_SEL, 3);
            pMapCfg->xy2axiLumMap[ 8] = GEN_XY2AXI(0,0,0,X_SEL, 4);
            pMapCfg->xy2axiLumMap[ 9] = GEN_XY2AXI(0,0,0,X_SEL, 5);
            pMapCfg->xy2axiLumMap[10] = GEN_XY2AXI(0,0,0,X_SEL, 6);
            pMapCfg->xy2axiLumMap[11] = GEN_XY2AXI(0,0,0,Y_SEL, 4);
            pMapCfg->xy2axiLumMap[12] = GEN_XY2AXI(0,0,0,X_SEL, 7);
            pMapCfg->xy2axiLumMap[13] = GEN_XY2AXI(0,0,1,Y_SEL, 5);
            if (width <= 512) 
            {
                pMapCfg->xy2axiLumMap[14] = GEN_XY2AXI(0,0,0,X_SEL, 8);
                pMapCfg->xy2axiLumMap[15] = GEN_XY2AXI(0,0,0,Y_SEL, 6);
                pMapCfg->xy2axiLumMap[16] = GEN_XY2AXI(0,0,0,Y_SEL, 7);
                pMapCfg->xy2axiLumMap[17] = GEN_XY2AXI(0,0,0,Y_SEL, 8);
                pMapCfg->xy2axiLumMap[18] = GEN_XY2AXI(0,0,0,Y_SEL, 9);
                pMapCfg->xy2axiLumMap[19] = GEN_XY2AXI(0,0,0,Y_SEL,10);
                pMapCfg->xy2axiLumMap[20] = GEN_XY2AXI(0,0,0,Y_SEL,11);
            } 
            else if (width <= 1024) 
            {
                pMapCfg->xy2axiLumMap[14] = GEN_XY2AXI(0,0,0,X_SEL, 8);
                pMapCfg->xy2axiLumMap[15] = GEN_XY2AXI(0,0,0,X_SEL, 9);
                pMapCfg->xy2axiLumMap[16] = GEN_XY2AXI(0,0,0,Y_SEL, 6);
                pMapCfg->xy2axiLumMap[17] = GEN_XY2AXI(0,0,0,Y_SEL, 7);
                pMapCfg->xy2axiLumMap[18] = GEN_XY2AXI(0,0,0,Y_SEL, 8);
                pMapCfg->xy2axiLumMap[19] = GEN_XY2AXI(0,0,0,Y_SEL, 9);
                pMapCfg->xy2axiLumMap[20] = GEN_XY2AXI(0,0,0,Y_SEL,10);
                pMapCfg->xy2axiLumMap[21] = GEN_XY2AXI(0,0,0,Y_SEL,11);
            } 
            else if (width <= 2048) 
            {
                pMapCfg->xy2axiLumMap[14] = GEN_XY2AXI(0,0,0,X_SEL, 8);
                pMapCfg->xy2axiLumMap[15] = GEN_XY2AXI(0,0,0,X_SEL, 9);
                pMapCfg->xy2axiLumMap[16] = GEN_XY2AXI(0,0,0,X_SEL,10);
                pMapCfg->xy2axiLumMap[17] = GEN_XY2AXI(0,0,0,Y_SEL, 6);
                pMapCfg->xy2axiLumMap[18] = GEN_XY2AXI(0,0,0,Y_SEL, 7);
                pMapCfg->xy2axiLumMap[19] = GEN_XY2AXI(0,0,0,Y_SEL, 8);
                pMapCfg->xy2axiLumMap[20] = GEN_XY2AXI(0,0,0,Y_SEL, 9);
                pMapCfg->xy2axiLumMap[21] = GEN_XY2AXI(0,0,0,Y_SEL,10);
                pMapCfg->xy2axiLumMap[22] = GEN_XY2AXI(0,0,0,Y_SEL,11);
            } 
            else
            { // 4K size
                pMapCfg->xy2axiLumMap[14] = GEN_XY2AXI(0,0,0,X_SEL, 8);
                pMapCfg->xy2axiLumMap[15] = GEN_XY2AXI(0,0,0,X_SEL, 9);
                pMapCfg->xy2axiLumMap[16] = GEN_XY2AXI(0,0,0,X_SEL,10);
                pMapCfg->xy2axiLumMap[17] = GEN_XY2AXI(0,0,0,X_SEL,11);
                pMapCfg->xy2axiLumMap[18] = GEN_XY2AXI(0,0,0,Y_SEL, 6);
                pMapCfg->xy2axiLumMap[19] = GEN_XY2AXI(0,0,0,Y_SEL, 7);
                pMapCfg->xy2axiLumMap[20] = GEN_XY2AXI(0,0,0,Y_SEL, 8);
                pMapCfg->xy2axiLumMap[21] = GEN_XY2AXI(0,0,0,Y_SEL, 9);
                pMapCfg->xy2axiLumMap[22] = GEN_XY2AXI(0,0,0,Y_SEL,10);
                pMapCfg->xy2axiLumMap[23] = GEN_XY2AXI(0,0,0,Y_SEL,11);
            }
            pMapCfg->xy2axiChrMap[ 3] = GEN_XY2AXI(0,0,0,Y_SEL, 0);
            pMapCfg->xy2axiChrMap[ 4] = GEN_XY2AXI(0,0,0,Y_SEL, 1);
            pMapCfg->xy2axiChrMap[ 5] = GEN_XY2AXI(0,0,0,Y_SEL, 2);
            pMapCfg->xy2axiChrMap[ 6] = GEN_XY2AXI(0,0,0,Y_SEL, 3);
            pMapCfg->xy2axiChrMap[ 7] = GEN_XY2AXI(0,0,0,X_SEL, 3);
            pMapCfg->xy2axiChrMap[ 8] = GEN_XY2AXI(0,0,0,X_SEL, 4);
            pMapCfg->xy2axiChrMap[ 9] = GEN_XY2AXI(0,0,0,X_SEL, 5);
            pMapCfg->xy2axiChrMap[10] = GEN_XY2AXI(0,0,0,X_SEL, 6);
            pMapCfg->xy2axiChrMap[11] = GEN_XY2AXI(0,0,0,Y_SEL, 5);
            pMapCfg->xy2axiChrMap[12] = GEN_XY2AXI(1,0,0,X_SEL, 7);
            pMapCfg->xy2axiChrMap[13] = GEN_XY2AXI(1,0,1,Y_SEL, 4);
            if (width_chr <= 512) 
            {
                pMapCfg->xy2axiChrMap[14] = GEN_XY2AXI(0,0,0,X_SEL, 8);
                pMapCfg->xy2axiChrMap[15] = GEN_XY2AXI(0,0,0,Y_SEL, 6);
                pMapCfg->xy2axiChrMap[16] = GEN_XY2AXI(0,0,0,Y_SEL, 7);
                pMapCfg->xy2axiChrMap[17] = GEN_XY2AXI(0,0,0,Y_SEL, 8);
                pMapCfg->xy2axiChrMap[18] = GEN_XY2AXI(0,0,0,Y_SEL, 9);
                pMapCfg->xy2axiChrMap[19] = GEN_XY2AXI(0,0,0,Y_SEL,10);
                pMapCfg->xy2axiChrMap[20] = GEN_XY2AXI(0,0,0,Y_SEL,11);
            } 
            else if (width_chr <= 1024) 
            {
                pMapCfg->xy2axiChrMap[14] = GEN_XY2AXI(0,0,0,X_SEL, 8);
                pMapCfg->xy2axiChrMap[15] = GEN_XY2AXI(0,0,0,X_SEL, 9);
                pMapCfg->xy2axiChrMap[16] = GEN_XY2AXI(0,0,0,Y_SEL, 6);
                pMapCfg->xy2axiChrMap[17] = GEN_XY2AXI(0,0,0,Y_SEL, 7);
                pMapCfg->xy2axiChrMap[18] = GEN_XY2AXI(0,0,0,Y_SEL, 8);
                pMapCfg->xy2axiChrMap[19] = GEN_XY2AXI(0,0,0,Y_SEL, 9);
                pMapCfg->xy2axiChrMap[20] = GEN_XY2AXI(0,0,0,Y_SEL,10);
                pMapCfg->xy2axiChrMap[21] = GEN_XY2AXI(0,0,0,Y_SEL,11);
            } 
            else if (width_chr <= 2048) 
            {
                pMapCfg->xy2axiChrMap[14] = GEN_XY2AXI(0,0,0,X_SEL, 8);
                pMapCfg->xy2axiChrMap[15] = GEN_XY2AXI(0,0,0,X_SEL, 9);
                pMapCfg->xy2axiChrMap[16] = GEN_XY2AXI(0,0,0,X_SEL,10);
                pMapCfg->xy2axiChrMap[17] = GEN_XY2AXI(0,0,0,Y_SEL, 6);
                pMapCfg->xy2axiChrMap[18] = GEN_XY2AXI(0,0,0,Y_SEL, 7);
                pMapCfg->xy2axiChrMap[19] = GEN_XY2AXI(0,0,0,Y_SEL, 8);
                pMapCfg->xy2axiChrMap[20] = GEN_XY2AXI(0,0,0,Y_SEL, 9);
                pMapCfg->xy2axiChrMap[21] = GEN_XY2AXI(0,0,0,Y_SEL,10);
                pMapCfg->xy2axiChrMap[22] = GEN_XY2AXI(0,0,0,Y_SEL,11);
            } 
            else
            { // 4K size
                pMapCfg->xy2axiChrMap[14] = GEN_XY2AXI(0,0,0,X_SEL, 8);
                pMapCfg->xy2axiChrMap[15] = GEN_XY2AXI(0,0,0,X_SEL, 9);
                pMapCfg->xy2axiChrMap[16] = GEN_XY2AXI(0,0,0,X_SEL,10);
                pMapCfg->xy2axiChrMap[17] = GEN_XY2AXI(0,0,0,X_SEL,11);
                pMapCfg->xy2axiChrMap[18] = GEN_XY2AXI(0,0,0,Y_SEL, 6);
                pMapCfg->xy2axiChrMap[19] = GEN_XY2AXI(0,0,0,Y_SEL, 7);
                pMapCfg->xy2axiChrMap[20] = GEN_XY2AXI(0,0,0,Y_SEL, 8);
                pMapCfg->xy2axiChrMap[21] = GEN_XY2AXI(0,0,0,Y_SEL, 9);
                pMapCfg->xy2axiChrMap[22] = GEN_XY2AXI(0,0,0,Y_SEL,10);
                pMapCfg->xy2axiChrMap[23] = GEN_XY2AXI(0,0,0,Y_SEL,11);
            }

            //xy2axiConfig
            pMapCfg->xy2axiConfig = GEN_CONFIG(0,1,1,1,1,15,15,15,15);
            break;
        }
    case TILED_MIXED_V_MAP:
        {

            pMapCfg->xy2axiLumMap[ 3] = GEN_XY2AXI(0,0,0,Y_SEL, 1);
            pMapCfg->xy2axiLumMap[ 4] = GEN_XY2AXI(0,0,0,Y_SEL, 2);
            pMapCfg->xy2axiLumMap[ 5] = GEN_XY2AXI(0,0,0,Y_SEL, 3);
            pMapCfg->xy2axiLumMap[ 6] = GEN_XY2AXI(0,0,0,Y_SEL, 0);
            pMapCfg->xy2axiLumMap[ 7] = GEN_XY2AXI(0,0,0,X_SEL, 3);
            pMapCfg->xy2axiLumMap[ 8] = GEN_XY2AXI(0,0,0,X_SEL, 4);
            pMapCfg->xy2axiLumMap[ 9] = GEN_XY2AXI(0,0,0,X_SEL, 5);
            pMapCfg->xy2axiLumMap[10] = GEN_XY2AXI(0,0,0,X_SEL, 6);
            pMapCfg->xy2axiLumMap[11] = GEN_XY2AXI(0,0,0,Y_SEL, 4);
            pMapCfg->xy2axiLumMap[12] = GEN_XY2AXI(0,0,0,X_SEL, 7);
            pMapCfg->xy2axiLumMap[13] = GEN_XY2AXI(0,0,0,Y_SEL, 5);
            if (width <= 512) 
            {
                pMapCfg->xy2axiLumMap[14] = GEN_XY2AXI(0,0,0,X_SEL, 8);
                pMapCfg->xy2axiLumMap[15] = GEN_XY2AXI(0,0,0,Y_SEL, 6);
                pMapCfg->xy2axiLumMap[16] = GEN_XY2AXI(0,0,0,Y_SEL, 7);
                pMapCfg->xy2axiLumMap[17] = GEN_XY2AXI(0,0,0,Y_SEL, 8);
                pMapCfg->xy2axiLumMap[18] = GEN_XY2AXI(0,0,0,Y_SEL, 9);
                pMapCfg->xy2axiLumMap[19] = GEN_XY2AXI(0,0,0,Y_SEL,10);
                pMapCfg->xy2axiLumMap[20] = GEN_XY2AXI(0,0,0,Y_SEL,11);
            } 
            else if (width <= 1024) 
            {
                pMapCfg->xy2axiLumMap[14] = GEN_XY2AXI(0,0,0,X_SEL, 8);
                pMapCfg->xy2axiLumMap[15] = GEN_XY2AXI(0,0,0,X_SEL, 9);
                pMapCfg->xy2axiLumMap[16] = GEN_XY2AXI(0,0,0,Y_SEL, 6);
                pMapCfg->xy2axiLumMap[17] = GEN_XY2AXI(0,0,0,Y_SEL, 7);
                pMapCfg->xy2axiLumMap[18] = GEN_XY2AXI(0,0,0,Y_SEL, 8);
                pMapCfg->xy2axiLumMap[19] = GEN_XY2AXI(0,0,0,Y_SEL, 9);
                pMapCfg->xy2axiLumMap[20] = GEN_XY2AXI(0,0,0,Y_SEL,10);
                pMapCfg->xy2axiLumMap[21] = GEN_XY2AXI(0,0,0,Y_SEL,11);
            } 
            else if (width <= 2048) 
            {
                pMapCfg->xy2axiLumMap[14] = GEN_XY2AXI(0,0,0,X_SEL, 8);
                pMapCfg->xy2axiLumMap[15] = GEN_XY2AXI(0,0,0,X_SEL, 9);
                pMapCfg->xy2axiLumMap[16] = GEN_XY2AXI(0,0,0,X_SEL,10);
                pMapCfg->xy2axiLumMap[17] = GEN_XY2AXI(0,0,0,Y_SEL, 6);
                pMapCfg->xy2axiLumMap[18] = GEN_XY2AXI(0,0,0,Y_SEL, 7);
                pMapCfg->xy2axiLumMap[19] = GEN_XY2AXI(0,0,0,Y_SEL, 8);
                pMapCfg->xy2axiLumMap[20] = GEN_XY2AXI(0,0,0,Y_SEL, 9);
                pMapCfg->xy2axiLumMap[21] = GEN_XY2AXI(0,0,0,Y_SEL,10);
                pMapCfg->xy2axiLumMap[22] = GEN_XY2AXI(0,0,0,Y_SEL,11);
            } 
            else 
            { // 4K size
                pMapCfg->xy2axiLumMap[14] = GEN_XY2AXI(0,0,0,X_SEL, 8);
                pMapCfg->xy2axiLumMap[15] = GEN_XY2AXI(0,0,0,X_SEL, 9);
                pMapCfg->xy2axiLumMap[16] = GEN_XY2AXI(0,0,0,X_SEL,10);
                pMapCfg->xy2axiLumMap[17] = GEN_XY2AXI(0,0,0,X_SEL,11);
                pMapCfg->xy2axiLumMap[18] = GEN_XY2AXI(0,0,0,Y_SEL, 6);
                pMapCfg->xy2axiLumMap[19] = GEN_XY2AXI(0,0,0,Y_SEL, 7);
                pMapCfg->xy2axiLumMap[20] = GEN_XY2AXI(0,0,0,Y_SEL, 8);
                pMapCfg->xy2axiLumMap[21] = GEN_XY2AXI(0,0,0,Y_SEL, 9);
                pMapCfg->xy2axiLumMap[22] = GEN_XY2AXI(0,0,0,Y_SEL,10);
                pMapCfg->xy2axiLumMap[23] = GEN_XY2AXI(0,0,0,Y_SEL,11);
            }
            pMapCfg->xy2axiChrMap[ 3] = GEN_XY2AXI(0,0,0,Y_SEL, 1);
            pMapCfg->xy2axiChrMap[ 4] = GEN_XY2AXI(0,0,0,Y_SEL, 2);
            pMapCfg->xy2axiChrMap[ 5] = GEN_XY2AXI(0,0,0,Y_SEL, 3);
            pMapCfg->xy2axiChrMap[ 6] = GEN_XY2AXI(0,0,0,Y_SEL, 0);
            pMapCfg->xy2axiChrMap[ 7] = GEN_XY2AXI(0,0,0,X_SEL, 3);
            pMapCfg->xy2axiChrMap[ 8] = GEN_XY2AXI(0,0,0,X_SEL, 4);
            pMapCfg->xy2axiChrMap[ 9] = GEN_XY2AXI(0,0,0,X_SEL, 5);
            pMapCfg->xy2axiChrMap[10] = GEN_XY2AXI(0,0,0,X_SEL, 6);
            pMapCfg->xy2axiChrMap[11] = GEN_XY2AXI(0,0,0,Y_SEL, 5);
            pMapCfg->xy2axiChrMap[12] = GEN_XY2AXI(1,0,0,X_SEL, 7);
            pMapCfg->xy2axiChrMap[13] = GEN_XY2AXI(1,0,0,Y_SEL, 4);
            if (width_chr <= 512) 
            {
                pMapCfg->xy2axiChrMap[14] = GEN_XY2AXI(0,0,0,X_SEL, 8);
                pMapCfg->xy2axiChrMap[15] = GEN_XY2AXI(0,0,0,Y_SEL, 6);
                pMapCfg->xy2axiChrMap[16] = GEN_XY2AXI(0,0,0,Y_SEL, 7);
                pMapCfg->xy2axiChrMap[17] = GEN_XY2AXI(0,0,0,Y_SEL, 8);
                pMapCfg->xy2axiChrMap[18] = GEN_XY2AXI(0,0,0,Y_SEL, 9);
                pMapCfg->xy2axiChrMap[19] = GEN_XY2AXI(0,0,0,Y_SEL,10);
                pMapCfg->xy2axiChrMap[20] = GEN_XY2AXI(0,0,0,Y_SEL,11);
            } 
            else if (width_chr <= 1024) 
            {
                pMapCfg->xy2axiChrMap[14] = GEN_XY2AXI(0,0,0,X_SEL, 8);
                pMapCfg->xy2axiChrMap[15] = GEN_XY2AXI(0,0,0,X_SEL, 9);
                pMapCfg->xy2axiChrMap[16] = GEN_XY2AXI(0,0,0,Y_SEL, 6);
                pMapCfg->xy2axiChrMap[17] = GEN_XY2AXI(0,0,0,Y_SEL, 7);
                pMapCfg->xy2axiChrMap[18] = GEN_XY2AXI(0,0,0,Y_SEL, 8);
                pMapCfg->xy2axiChrMap[19] = GEN_XY2AXI(0,0,0,Y_SEL, 9);
                pMapCfg->xy2axiChrMap[20] = GEN_XY2AXI(0,0,0,Y_SEL,10);
                pMapCfg->xy2axiChrMap[21] = GEN_XY2AXI(0,0,0,Y_SEL,11);
            } 
            else if (width_chr <= 2048) 
            {
                pMapCfg->xy2axiChrMap[14] = GEN_XY2AXI(0,0,0,X_SEL, 8);
                pMapCfg->xy2axiChrMap[15] = GEN_XY2AXI(0,0,0,X_SEL, 9);
                pMapCfg->xy2axiChrMap[16] = GEN_XY2AXI(0,0,0,X_SEL,10);
                pMapCfg->xy2axiChrMap[17] = GEN_XY2AXI(0,0,0,Y_SEL, 6);
                pMapCfg->xy2axiChrMap[18] = GEN_XY2AXI(0,0,0,Y_SEL, 7);
                pMapCfg->xy2axiChrMap[19] = GEN_XY2AXI(0,0,0,Y_SEL, 8);
                pMapCfg->xy2axiChrMap[20] = GEN_XY2AXI(0,0,0,Y_SEL, 9);
                pMapCfg->xy2axiChrMap[21] = GEN_XY2AXI(0,0,0,Y_SEL,10);
                pMapCfg->xy2axiChrMap[22] = GEN_XY2AXI(0,0,0,Y_SEL,11);
            } 
            else 
            {
                pMapCfg->xy2axiChrMap[14] = GEN_XY2AXI(0,0,0,X_SEL, 8);
                pMapCfg->xy2axiChrMap[15] = GEN_XY2AXI(0,0,0,X_SEL, 9);
                pMapCfg->xy2axiChrMap[16] = GEN_XY2AXI(0,0,0,X_SEL,10);
                pMapCfg->xy2axiChrMap[17] = GEN_XY2AXI(0,0,0,X_SEL,11);
                pMapCfg->xy2axiChrMap[18] = GEN_XY2AXI(0,0,0,Y_SEL, 6);
                pMapCfg->xy2axiChrMap[19] = GEN_XY2AXI(0,0,0,Y_SEL, 7);
                pMapCfg->xy2axiChrMap[20] = GEN_XY2AXI(0,0,0,Y_SEL, 8);
                pMapCfg->xy2axiChrMap[21] = GEN_XY2AXI(0,0,0,Y_SEL, 9);
                pMapCfg->xy2axiChrMap[22] = GEN_XY2AXI(0,0,0,Y_SEL,10);
                pMapCfg->xy2axiChrMap[23] = GEN_XY2AXI(0,0,0,Y_SEL,11);
            }
            //xy2axiConfig
            pMapCfg->xy2axiConfig = GEN_CONFIG(0,0,1,1,1,7,7,7,7);
            break;
        }
    case TILED_FRAME_MB_RASTER_MAP:
        {

            pMapCfg->xy2axiLumMap[ 3] = GEN_XY2AXI(0,0,0,Y_SEL, 0);
            pMapCfg->xy2axiLumMap[ 4] = GEN_XY2AXI(0,0,0,Y_SEL, 1);
            pMapCfg->xy2axiLumMap[ 5] = GEN_XY2AXI(0,0,0,Y_SEL, 2);
            pMapCfg->xy2axiLumMap[ 6] = GEN_XY2AXI(0,0,0,Y_SEL, 3);
            pMapCfg->xy2axiLumMap[ 7] = GEN_XY2AXI(0,0,0,X_SEL, 3);

            pMapCfg->xy2axiChrMap[ 3] = GEN_XY2AXI(0,0,0,Y_SEL, 0);
            pMapCfg->xy2axiChrMap[ 4] = GEN_XY2AXI(0,0,0,Y_SEL, 1);
            pMapCfg->xy2axiChrMap[ 5] = GEN_XY2AXI(0,0,0,Y_SEL, 2);
            pMapCfg->xy2axiChrMap[ 6] = GEN_XY2AXI(0,0,0,X_SEL, 3);

            //-----------------------------------------------------------
            // mb_addr = mby*stride + mbx
            // mb_addr mapping:
            //   luma   : axi_addr[~:8] => axi_addr = {mb_addr[23:0],map_addr[7:0]}
            //   chroma : axi_addr[~:7] => axi_addr = {mb_addr[23:0],map_addr[6:0]}
            //-----------------------------------------------------------

            //xy2axiConfig
            pMapCfg->xy2axiConfig = GEN_CONFIG(0,0,0,1,1,15,0,7,0);
            break;
        }	
    case TILED_FIELD_MB_RASTER_MAP:
        {
            pMapCfg->xy2axiLumMap[ 3] = GEN_XY2AXI(0,0,0,Y_SEL, 0);
            pMapCfg->xy2axiLumMap[ 4] = GEN_XY2AXI(0,0,0,Y_SEL, 1);
            pMapCfg->xy2axiLumMap[ 5] = GEN_XY2AXI(0,0,0,Y_SEL, 2);
            pMapCfg->xy2axiLumMap[ 6] = GEN_XY2AXI(0,0,0,X_SEL, 3);

            pMapCfg->xy2axiChrMap[ 3] = GEN_XY2AXI(0,0,0,Y_SEL, 0);
            pMapCfg->xy2axiChrMap[ 4] = GEN_XY2AXI(0,0,0,Y_SEL, 1);
            pMapCfg->xy2axiChrMap[ 5] = GEN_XY2AXI(0,0,0,X_SEL, 3);

            //-----------------------------------------------------------
            // mb_addr = mby*stride + mbx
            // mb_addr mapping:
            //   luma   : axi_addr[~:7] => axi_addr = {mb_addr[23:0],map_addr[6:0]}
            //   chroma : axi_addr[~:6] => axi_addr = {mb_addr[23:0],map_addr[5:0]}
            //-----------------------------------------------------------

            //xy2axiConfig
            pMapCfg->xy2axiConfig = GEN_CONFIG(0,1,1,1,1,7,7,3,3);

            break;
        }
    case TILED_FRAME_NO_BANK_MAP:
    case TILED_FIELD_NO_BANK_MAP:
        {
            // luma
            pMapCfg->xy2axiLumMap[ 3] = GEN_XY2AXI(0,0,0,Y_SEL, 0);
            pMapCfg->xy2axiLumMap[ 4] = GEN_XY2AXI(0,0,0,Y_SEL, 1);
            pMapCfg->xy2axiLumMap[ 5] = GEN_XY2AXI(0,0,0,Y_SEL, 2);
            pMapCfg->xy2axiLumMap[ 6] = GEN_XY2AXI(0,0,0,Y_SEL, 3);
            pMapCfg->xy2axiLumMap[ 7] = GEN_XY2AXI(0,0,0,X_SEL, 3);
            pMapCfg->xy2axiLumMap[ 8] = GEN_XY2AXI(0,0,0,Y_SEL, 4);
            pMapCfg->xy2axiLumMap[ 9] = GEN_XY2AXI(0,0,0,Y_SEL, 5);
            pMapCfg->xy2axiLumMap[10] = GEN_XY2AXI(0,0,0,Y_SEL, 6);
            pMapCfg->xy2axiLumMap[11] = GEN_XY2AXI(0,0,0,X_SEL, 4);
            pMapCfg->xy2axiLumMap[12] = GEN_XY2AXI(0,0,0,X_SEL, 5);
            pMapCfg->xy2axiLumMap[13] = GEN_XY2AXI(0,0,0,X_SEL, 6);
            pMapCfg->xy2axiLumMap[14] = GEN_XY2AXI(0,0,0,X_SEL, 7);
            pMapCfg->xy2axiLumMap[15] = GEN_XY2AXI(0,0,0,X_SEL, 8);
            if (width <= 512)
            {
                pMapCfg->xy2axiLumMap[16] = GEN_XY2AXI(0,0,0,Y_SEL, 7);
                pMapCfg->xy2axiLumMap[17] = GEN_XY2AXI(0,0,0,Y_SEL, 8);
                pMapCfg->xy2axiLumMap[18] = GEN_XY2AXI(0,0,0,Y_SEL, 9);
                pMapCfg->xy2axiLumMap[19] = GEN_XY2AXI(0,0,0,Y_SEL,10);
                pMapCfg->xy2axiLumMap[20] = GEN_XY2AXI(0,0,0,Y_SEL,11);
            } 
            else if (width <= 1024) 
            {
                pMapCfg->xy2axiLumMap[16] = GEN_XY2AXI(0,0,0,X_SEL, 9);
                pMapCfg->xy2axiLumMap[17] = GEN_XY2AXI(0,0,0,Y_SEL, 7);
                pMapCfg->xy2axiLumMap[18] = GEN_XY2AXI(0,0,0,Y_SEL, 8);
                pMapCfg->xy2axiLumMap[19] = GEN_XY2AXI(0,0,0,Y_SEL, 9);
                pMapCfg->xy2axiLumMap[20] = GEN_XY2AXI(0,0,0,Y_SEL,10);
                pMapCfg->xy2axiLumMap[21] = GEN_XY2AXI(0,0,0,Y_SEL,11);
            } 
            else if (width <= 2048) 
            {
                pMapCfg->xy2axiLumMap[16] = GEN_XY2AXI(0,0,0,X_SEL, 9);
                pMapCfg->xy2axiLumMap[17] = GEN_XY2AXI(0,0,0,X_SEL,10);
                pMapCfg->xy2axiLumMap[18] = GEN_XY2AXI(0,0,0,Y_SEL, 7);
                pMapCfg->xy2axiLumMap[19] = GEN_XY2AXI(0,0,0,Y_SEL, 8);
                pMapCfg->xy2axiLumMap[20] = GEN_XY2AXI(0,0,0,Y_SEL, 9);
                pMapCfg->xy2axiLumMap[21] = GEN_XY2AXI(0,0,0,Y_SEL,10);
                pMapCfg->xy2axiLumMap[22] = GEN_XY2AXI(0,0,0,Y_SEL,11);
            } 
            else 
            {
                pMapCfg->xy2axiLumMap[16] = GEN_XY2AXI(0,0,0,X_SEL, 9);
                pMapCfg->xy2axiLumMap[17] = GEN_XY2AXI(0,0,0,X_SEL,10);
                pMapCfg->xy2axiLumMap[18] = GEN_XY2AXI(0,0,0,X_SEL,11);
                pMapCfg->xy2axiLumMap[19] = GEN_XY2AXI(0,0,0,Y_SEL, 7);
                pMapCfg->xy2axiLumMap[20] = GEN_XY2AXI(0,0,0,Y_SEL, 8);
                pMapCfg->xy2axiLumMap[21] = GEN_XY2AXI(0,0,0,Y_SEL, 9);
                pMapCfg->xy2axiLumMap[22] = GEN_XY2AXI(0,0,0,Y_SEL,10);
                pMapCfg->xy2axiLumMap[23] = GEN_XY2AXI(0,0,0,Y_SEL,11);
            }
            // chroma
            pMapCfg->xy2axiChrMap[ 3] = GEN_XY2AXI(0,0,0,Y_SEL, 0);
            pMapCfg->xy2axiChrMap[ 4] = GEN_XY2AXI(0,0,0,Y_SEL, 1);
            pMapCfg->xy2axiChrMap[ 5] = GEN_XY2AXI(0,0,0,Y_SEL, 2);
            pMapCfg->xy2axiChrMap[ 6] = GEN_XY2AXI(0,0,0,Y_SEL, 3);
            pMapCfg->xy2axiChrMap[ 7] = GEN_XY2AXI(0,0,0,X_SEL, 3);
            pMapCfg->xy2axiChrMap[ 8] = GEN_XY2AXI(0,0,0,Y_SEL, 4);
            pMapCfg->xy2axiChrMap[ 9] = GEN_XY2AXI(0,0,0,Y_SEL, 5);
            pMapCfg->xy2axiChrMap[10] = GEN_XY2AXI(0,0,0,Y_SEL, 6);
            pMapCfg->xy2axiChrMap[11] = GEN_XY2AXI(0,0,0,X_SEL, 4);
            pMapCfg->xy2axiChrMap[12] = GEN_XY2AXI(0,0,0,X_SEL, 5);
            pMapCfg->xy2axiChrMap[13] = GEN_XY2AXI(0,0,0,X_SEL, 6);
            pMapCfg->xy2axiChrMap[14] = GEN_XY2AXI(0,0,0,X_SEL, 7);
            pMapCfg->xy2axiChrMap[15] = GEN_XY2AXI(0,0,0,X_SEL, 8);

            if (width_chr <= 512) 
            {
                pMapCfg->xy2axiChrMap[16] = GEN_XY2AXI(0,0,0,Y_SEL, 7);
                pMapCfg->xy2axiChrMap[17] = GEN_XY2AXI(0,0,0,Y_SEL, 8);
                pMapCfg->xy2axiChrMap[18] = GEN_XY2AXI(0,0,0,Y_SEL, 9);
                pMapCfg->xy2axiChrMap[19] = GEN_XY2AXI(0,0,0,Y_SEL,10);
                pMapCfg->xy2axiChrMap[20] = GEN_XY2AXI(0,0,0,Y_SEL,11);
            } 
            else if (width_chr <= 1024) 
            {
                pMapCfg->xy2axiChrMap[16] = GEN_XY2AXI(0,0,0,X_SEL, 9);
                pMapCfg->xy2axiChrMap[17] = GEN_XY2AXI(0,0,0,Y_SEL, 7);
                pMapCfg->xy2axiChrMap[18] = GEN_XY2AXI(0,0,0,Y_SEL, 8);
                pMapCfg->xy2axiChrMap[19] = GEN_XY2AXI(0,0,0,Y_SEL, 9);
                pMapCfg->xy2axiChrMap[20] = GEN_XY2AXI(0,0,0,Y_SEL,10);
                pMapCfg->xy2axiChrMap[21] = GEN_XY2AXI(0,0,0,Y_SEL,11);
            } 
            else if (width_chr <= 2048) 
            {
                pMapCfg->xy2axiChrMap[16] = GEN_XY2AXI(0,0,0,X_SEL, 9);
                pMapCfg->xy2axiChrMap[17] = GEN_XY2AXI(0,0,0,X_SEL,10);
                pMapCfg->xy2axiChrMap[18] = GEN_XY2AXI(0,0,0,Y_SEL, 7);
                pMapCfg->xy2axiChrMap[19] = GEN_XY2AXI(0,0,0,Y_SEL, 8);
                pMapCfg->xy2axiChrMap[20] = GEN_XY2AXI(0,0,0,Y_SEL, 9);
                pMapCfg->xy2axiChrMap[21] = GEN_XY2AXI(0,0,0,Y_SEL,10);
                pMapCfg->xy2axiChrMap[22] = GEN_XY2AXI(0,0,0,Y_SEL,11);
            } 
            else 
            {
                pMapCfg->xy2axiChrMap[16] = GEN_XY2AXI(0,0,0,X_SEL, 9);
                pMapCfg->xy2axiChrMap[17] = GEN_XY2AXI(0,0,0,X_SEL,10);
                pMapCfg->xy2axiChrMap[18] = GEN_XY2AXI(0,0,0,X_SEL,11);
                pMapCfg->xy2axiChrMap[19] = GEN_XY2AXI(0,0,0,Y_SEL, 7);
                pMapCfg->xy2axiChrMap[20] = GEN_XY2AXI(0,0,0,Y_SEL, 8);
                pMapCfg->xy2axiChrMap[21] = GEN_XY2AXI(0,0,0,Y_SEL, 9);
                pMapCfg->xy2axiChrMap[22] = GEN_XY2AXI(0,0,0,Y_SEL,10);
                pMapCfg->xy2axiChrMap[23] = GEN_XY2AXI(0,0,0,Y_SEL,11);
            }

            //xy2axiConfig
            if (mapType == TILED_FRAME_NO_BANK_MAP)
                pMapCfg->xy2axiConfig = GEN_CONFIG(0,0,0,1,1,15,0,15,0);
            else
                pMapCfg->xy2axiConfig = GEN_CONFIG(0,1,1,1,1,15,15,15,15);

            break;
        }
    default:
        return 0;
        break;
    }

    for (i=0; i<32; i++) { //xy2axiLumMap
        VpuWriteReg(coreIdx, GDI_XY2AXI_LUM_BIT00 + 4*i, pMapCfg->xy2axiLumMap[i]);
    }

    for (i=0; i<32; i++) { //xy2axiChrMap
        VpuWriteReg(coreIdx, GDI_XY2AXI_CHR_BIT00 + 4*i, pMapCfg->xy2axiChrMap[i]);
    }

    //xy2axiConfig
    VpuWriteReg(coreIdx, GDI_XY2AXI_CONFIG, pMapCfg->xy2axiConfig);

    // fast access for reading
    pMapCfg->tbSeparateMap  = (pMapCfg->xy2axiConfig >> 19) & 0x1;
    pMapCfg->topBotSplit    = (pMapCfg->xy2axiConfig >> 18) & 0x1;
    pMapCfg->tiledMap         = (pMapCfg->xy2axiConfig >> 17) & 0x1;

    return 1;
}

static int GetXY2AXILogic(int map_val , int xpos, int ypos, int tb)
{
    int invert;
    int assign_zero;
    int tbxor;
    int xysel;
    int bitsel;

    int xypos,xybit,xybit_st1,xybit_st2,xybit_st3;

    invert      = map_val >> 7;
    assign_zero = (map_val & 0x78) >> 6;
    tbxor       = (map_val & 0x3C) >> 5;
    xysel       = (map_val & 0x1E) >> 4;
    bitsel      = map_val & 0x0f;

    xypos     = (xysel) ? ypos : xpos;
    xybit     = (xypos >> bitsel) & 0x01;
    xybit_st1 = (tbxor)       ? xybit^tb : xybit;
    xybit_st2 = (assign_zero) ? 0 : xybit_st1;
    xybit_st3 = (invert)      ? !xybit_st2 : xybit_st2;

    return xybit_st3;
}

static int GetXY2AXIAddr20(TiledMapConfig *pMapCfg, int ycbcr, int posY, int posX, int stride, FrameBuffer *fb)
{                                                                                      
    int tbSeparateMap;                                                              
    int use_linear_field;                                                              
    int ypos_field;                                                                      
    int tb;                                                                              
    int chr_flag;
    int ypos_mod;
    int i;
    int mbx, mby;
    int mbx_num;
    int mb_addr;
    int xy2axiLumMap;
    int xy2axiChrMap;
    int xy2axi_map_sel;
    int temp_bit;
    int tmp_addr;
    int axi_conv;

    int y_top_base;
    int cb_top_base;
    int cr_top_base;
    int y_bot_base;
    int cb_bot_base;
    int cr_bot_base;    
    int top_base_addr;
    int bot_base_addr;
    int base_addr;
    int pix_addr;
    int mapType;
    mapType = fb->mapType;

    if (!pMapCfg)
        return -1;

    tbSeparateMap = pMapCfg->tbSeparateMap;
    use_linear_field = (mapType == 9);
    ypos_field = posY/2;
    tb = posY & 1;
    ypos_mod = (tbSeparateMap | use_linear_field) ? ypos_field : posY;
    chr_flag = (ycbcr >> 1) & 0x1;

    mbx_num = stride/16;

    y_top_base = fb->bufY;
    cb_top_base = fb->bufCb;
    cr_top_base = fb->bufCr;
    y_bot_base = fb->bufYBot;
    cb_bot_base = fb->bufCbBot;
    cr_bot_base = fb->bufCrBot;

    if (mapType == LINEAR_FRAME_MAP) 
    {
        base_addr = (ycbcr==0) ? y_top_base  : (ycbcr==2) ? cb_top_base : cr_top_base;
        pix_addr = ((posY * stride) + posX) + base_addr;
    } 
    else if (mapType == LINEAR_FIELD_MAP) 
    {
        top_base_addr = (ycbcr==0) ? y_top_base  : (ycbcr==2) ? cb_top_base : cr_top_base;
        bot_base_addr = (ycbcr==0) ? y_bot_base  : (ycbcr==2) ? cb_bot_base : cr_bot_base;
        base_addr = tb ? bot_base_addr : top_base_addr;

        pix_addr = ((ypos_mod * stride) + posX) + base_addr;
    } 
    else if (mapType == TILED_FRAME_MB_RASTER_MAP || mapType == TILED_FIELD_MB_RASTER_MAP) 
    {
        top_base_addr = (ycbcr==0) ? y_top_base  : (ycbcr==2) ? cb_top_base : cr_top_base;
        bot_base_addr = (ycbcr==0) ? y_bot_base  : (ycbcr==2) ? cb_bot_base : cr_bot_base;

        if (tbSeparateMap & tb)
            base_addr = bot_base_addr;
        else
            base_addr = top_base_addr;

        if (ycbcr == 0) 
        {
            mbx = posX/16;
            mby = posY/16;
        } 
        else
        { //always interleave
            mbx = posX/16;
            mby = posY/8;
        }

        mb_addr = mbx_num * mby + mbx;

        // axi_conv[7:0]
        axi_conv = 0;
        for (i=0 ; i<8; i++) 
        {
            xy2axiLumMap = pMapCfg->xy2axiLumMap[i];
            xy2axiChrMap = pMapCfg->xy2axiChrMap[i];
            xy2axi_map_sel = (chr_flag) ? xy2axiChrMap : xy2axiLumMap;
            temp_bit = GetXY2AXILogic(xy2axi_map_sel,posX,ypos_mod,tb);
            axi_conv = axi_conv + (temp_bit << i);
        }

        if (mapType==TILED_FRAME_MB_RASTER_MAP) 
        {
            if (chr_flag==0)
                tmp_addr = (mb_addr << 8) + axi_conv;
            else // chroma, interleaved only
                tmp_addr = (mb_addr << 7) + axi_conv;
        } 
        else
        { // TILED_FIELD_MB_RASTER_MAP
            if (chr_flag==0)
                tmp_addr = (mb_addr << 7) + axi_conv;
            else // chroma, interleaved only
                tmp_addr = (mb_addr << 6) + axi_conv;
        }

        pix_addr = tmp_addr + base_addr;
    } 
    else 
    {

        top_base_addr = (ycbcr==0) ? y_top_base  : (ycbcr==2) ? cb_top_base : cr_top_base;
        bot_base_addr = (ycbcr==0) ? y_bot_base  : (ycbcr==2) ? cb_bot_base : cr_bot_base;
        if (tbSeparateMap & tb)
            base_addr = bot_base_addr;
        else
            base_addr = top_base_addr;

        // axi_conv[31:0]
        axi_conv = 0;
        for (i=0 ; i<32; i++) 
        {
            xy2axiLumMap = pMapCfg->xy2axiLumMap[i];
            xy2axiChrMap = pMapCfg->xy2axiChrMap[i];
            xy2axi_map_sel = (chr_flag) ? xy2axiChrMap : xy2axiLumMap;
            temp_bit = GetXY2AXILogic(xy2axi_map_sel,posX,ypos_mod,tb);
            axi_conv = axi_conv + (temp_bit << i);
        }

        pix_addr = axi_conv + base_addr;
    }

    return pix_addr;
}

// GDI related functios for GDI 1.0
PhysicalAddress GetTiledFrameBase(Uint32 coreIdx, FrameBuffer *frame, int num)
{
    PhysicalAddress baseAddr;
    int i;

    UNREFERENCED_PARAMETER(coreIdx);
    baseAddr = frame[0].bufY;
    for (i=0; i<num; i++)
    {
        if (frame[i].bufY < baseAddr)
            baseAddr = frame[i].bufY;
    }

    return baseAddr;
}

void SetTiledFrameBase(Uint32 coreIdx, PhysicalAddress baseAddr)
{
    VpuWriteReg(coreIdx, GDI_TILEDBUF_BASE, baseAddr);
}

static int SetTiledMapTypeV10(Uint32 coreIdx, TiledMapConfig *pMapCfg, DRAMConfig *dramCfg, int stride, int mapType)
{
#define XY2CONFIG(A,B,C,D,E,F,G,H,I) ((A)<<20 | (B)<<19 | (C)<<18 | (D)<<17 | (E)<<16 | (F)<<12 | (G)<<8 | (H)<<4 | (I))
#define XY2(A,B,C,D)                 ((A)<<12 | (B)<<8 | (C)<<4 | (D))
#define XY2BANK(A,B,C,D,E,F)         ((A)<<13 | (B)<<12 | (C)<<8 | (D)<<5 | (E)<<4 | (F))
#define RBC(A,B,C,D)                 ((A)<<10 | (B)<< 6 | (C)<<4 | (D))
#define RBC_SAME(A,B)                ((A)<<10 | (B)<< 6 | (A)<<4 | (B))
#define X_SEL 0
#define Y_SEL 1
#define CA_SEL 0
#define BA_SEL 1
#define RA_SEL 2
#define Z_SEL 3
    int ret; 
    int luma_map; 
    int chro_map;
    int i;	

    UNREFERENCED_PARAMETER(stride);
    pMapCfg->mapType = mapType;
    //         inv = 1'b0, zero = 1'b1 , tbxor = 1'b0, xy = 1'b0, bit = 4'd0
    luma_map = 64;
    chro_map = 64;

    for (i=0; i<16 ; i=i+1) {
        pMapCfg->xy2caMap[i] = luma_map << 8 | chro_map;
    }

    for (i=0; i<4;  i=i+1) {
        pMapCfg->xy2baMap[i] = luma_map << 8 | chro_map;
    }

    for (i=0; i<16; i=i+1) {
        pMapCfg->xy2raMap[i] = luma_map << 8 | chro_map;
    }

    ret = stride; // this will be removed after map size optimizing.
    ret = 0;
    switch(mapType)
    {
    case LINEAR_FRAME_MAP:
        pMapCfg->xy2rbcConfig = 0;
        ret = 1;
        break;
    case TILED_FRAME_V_MAP:
        if (dramCfg->casBit == 9 && dramCfg->bankBit == 2 && dramCfg->rasBit == 13)	// CNN setting 
        {
            //cas
            pMapCfg->xy2caMap[0] = XY2(Y_SEL, 0, Y_SEL, 0);
            pMapCfg->xy2caMap[1] = XY2(Y_SEL, 1, Y_SEL, 1);
            pMapCfg->xy2caMap[2] = XY2(Y_SEL, 2, Y_SEL, 2);
            pMapCfg->xy2caMap[3] = XY2(Y_SEL, 3, Y_SEL, 3);
            pMapCfg->xy2caMap[4] = XY2(X_SEL, 3, X_SEL, 3);
            pMapCfg->xy2caMap[5] = XY2(X_SEL, 4, X_SEL, 4);
            pMapCfg->xy2caMap[6] = XY2(X_SEL, 5, X_SEL, 5);
            pMapCfg->xy2caMap[7] = XY2(X_SEL, 6, X_SEL, 6);
            pMapCfg->xy2caMap[8] = XY2(Y_SEL, 4, Y_SEL, 5);

            //bank
            pMapCfg->xy2baMap[0] = XY2BANK(0,X_SEL, 7, 4, X_SEL, 7);
            pMapCfg->xy2baMap[1] = XY2BANK(0,Y_SEL, 5, 4, Y_SEL, 4);

            //ras
            pMapCfg->xy2raMap[ 0] = XY2(X_SEL, 8, X_SEL, 8);
            pMapCfg->xy2raMap[ 1] = XY2(X_SEL, 9, X_SEL, 9);
            pMapCfg->xy2raMap[ 2] = XY2(X_SEL,10, X_SEL,10);
            pMapCfg->xy2raMap[ 3] = XY2(Y_SEL, 6, Y_SEL, 6);
            pMapCfg->xy2raMap[ 4] = XY2(Y_SEL, 7, Y_SEL, 7);
            pMapCfg->xy2raMap[ 5] = XY2(Y_SEL, 8, Y_SEL, 8);
            pMapCfg->xy2raMap[ 6] = XY2(Y_SEL, 9, Y_SEL, 9);
            pMapCfg->xy2raMap[ 7] = XY2(Y_SEL,10, Y_SEL,10);
            pMapCfg->xy2raMap[ 8] = XY2(Y_SEL,11, Y_SEL,11);
            pMapCfg->xy2raMap[ 9] = XY2(Y_SEL,12, Y_SEL,12);
            pMapCfg->xy2raMap[10] = XY2(Y_SEL,13, Y_SEL,13);
            pMapCfg->xy2raMap[11] = XY2(Y_SEL,14, Y_SEL,14);
            pMapCfg->xy2raMap[12] = XY2(Y_SEL,15, Y_SEL,15);

        }
        else if(dramCfg->casBit == 10 && dramCfg->bankBit == 3 && dramCfg->rasBit == 13)
        {
            //cas
            pMapCfg->xy2caMap[0] = XY2(Z_SEL, 0, Z_SEL, 0);
            pMapCfg->xy2caMap[1] = XY2(Y_SEL, 0, Y_SEL, 0);
            pMapCfg->xy2caMap[2] = XY2(Y_SEL, 1, Y_SEL, 1);
            pMapCfg->xy2caMap[3] = XY2(Y_SEL, 2, Y_SEL, 2);
            pMapCfg->xy2caMap[4] = XY2(Y_SEL, 3, Y_SEL, 3);
            pMapCfg->xy2caMap[5] = XY2(X_SEL, 3, X_SEL, 3);
            pMapCfg->xy2caMap[6] = XY2(X_SEL, 4, X_SEL, 4);
            pMapCfg->xy2caMap[7] = XY2(X_SEL, 5, X_SEL, 5);
            pMapCfg->xy2caMap[8] = XY2(X_SEL, 6, X_SEL, 6);
            pMapCfg->xy2caMap[9] = XY2(Y_SEL, 4, Y_SEL, 4);

            //bank
            pMapCfg->xy2baMap[0] = XY2BANK(0,X_SEL, 7, 4, X_SEL, 7); 
            pMapCfg->xy2baMap[1] = XY2BANK(0,X_SEL, 8, 4, X_SEL, 8); 
            pMapCfg->xy2baMap[2] = XY2BANK(0,Y_SEL, 5, 4, Y_SEL, 5); 

            //ras
                pMapCfg->xy2raMap[ 0] = XY2(X_SEL, 9, X_SEL, 9);
                pMapCfg->xy2raMap[ 1] = XY2(X_SEL,10, X_SEL,10);
                pMapCfg->xy2raMap[ 2] = XY2(Y_SEL, 6, Y_SEL, 6);
                pMapCfg->xy2raMap[ 3] = XY2(Y_SEL, 7, Y_SEL, 7);
                pMapCfg->xy2raMap[ 4] = XY2(Y_SEL, 8, Y_SEL, 8);
                pMapCfg->xy2raMap[ 5] = XY2(Y_SEL, 9, Y_SEL, 9);
                pMapCfg->xy2raMap[ 6] = XY2(Y_SEL,10, Y_SEL,10);
                pMapCfg->xy2raMap[ 7] = XY2(Y_SEL,11, Y_SEL,11);
                pMapCfg->xy2raMap[ 8] = XY2(Y_SEL,12, Y_SEL,12);
                pMapCfg->xy2raMap[ 9] = XY2(Y_SEL,13, Y_SEL,13);
                pMapCfg->xy2raMap[10] = XY2(Y_SEL,14, Y_SEL,14);
                pMapCfg->xy2raMap[11] = XY2(Y_SEL,15, Y_SEL,15);
        }
        else if (dramCfg->casBit == 10 && dramCfg->bankBit == 3 && dramCfg->rasBit == 16) // DDR3 3BA, DDR4 1BG+2BA
        {
            pMapCfg->xy2caMap[0] = XY2(Y_SEL, 0, Y_SEL, 0);
            pMapCfg->xy2caMap[1] = XY2(Y_SEL, 1, Y_SEL, 1);
            pMapCfg->xy2caMap[2] = XY2(Y_SEL, 2, Y_SEL, 2);
            pMapCfg->xy2caMap[3] = XY2(Y_SEL, 3, Y_SEL, 3);

            pMapCfg->xy2caMap[4] = XY2(X_SEL, 3, X_SEL, 3);
            pMapCfg->xy2caMap[5] = XY2(X_SEL, 4, X_SEL, 4);
            pMapCfg->xy2caMap[6] = XY2(X_SEL, 5, X_SEL, 5);
            pMapCfg->xy2caMap[7] = XY2(X_SEL, 6, X_SEL, 6);
            pMapCfg->xy2caMap[8] = XY2(X_SEL, 7, X_SEL, 7);
            pMapCfg->xy2caMap[9] = XY2(Y_SEL, 4, Y_SEL, 5);

            //bank
            pMapCfg->xy2baMap[0] = XY2BANK(0,X_SEL, 8, 4, X_SEL, 8);
            pMapCfg->xy2baMap[1] = XY2BANK(0,X_SEL, 9, 4, X_SEL, 9);
            pMapCfg->xy2baMap[2] = XY2BANK(0,Y_SEL, 5, 4, Y_SEL, 4);

            //ras
            pMapCfg->xy2raMap[ 0] = XY2(X_SEL, 10, X_SEL, 10);
            pMapCfg->xy2raMap[ 1] = XY2(Y_SEL, 6, Y_SEL, 6);
            pMapCfg->xy2raMap[ 2] = XY2(Y_SEL, 7, Y_SEL, 7);
            pMapCfg->xy2raMap[ 3] = XY2(Y_SEL, 8, Y_SEL, 8);
            pMapCfg->xy2raMap[ 4] = XY2(Y_SEL, 9, Y_SEL, 9);
            pMapCfg->xy2raMap[ 5] = XY2(Y_SEL, 10, Y_SEL,10);

            pMapCfg->xy2raMap[ 6] = XY2(Y_SEL,11, Y_SEL,11);
            pMapCfg->xy2raMap[ 7] = XY2(Y_SEL,12, Y_SEL,12);
            pMapCfg->xy2raMap[ 8] = XY2(Y_SEL,13, Y_SEL,13);
            pMapCfg->xy2raMap[ 9] = XY2(Y_SEL,14, Y_SEL,14);
            pMapCfg->xy2raMap[10] = XY2(Y_SEL,15, Y_SEL,15);
        }       
        else if (dramCfg->casBit == 10 && dramCfg->bankBit == 4 && dramCfg->rasBit == 15) // DDR3 4BA, DDR4 2BG+2BA
        {

            pMapCfg->xy2caMap[0] = XY2(Y_SEL, 0, Y_SEL, 0);
            pMapCfg->xy2caMap[1] = XY2(Y_SEL, 1, Y_SEL, 1);
            pMapCfg->xy2caMap[2] = XY2(Y_SEL, 2, Y_SEL, 2);
            pMapCfg->xy2caMap[3] = XY2(Y_SEL, 3, Y_SEL, 3);

            pMapCfg->xy2caMap[4] = XY2(X_SEL, 3, X_SEL, 3);
            pMapCfg->xy2caMap[5] = XY2(X_SEL, 4, X_SEL, 4);
            pMapCfg->xy2caMap[6] = XY2(X_SEL, 5, X_SEL, 5);
            pMapCfg->xy2caMap[7] = XY2(X_SEL, 6, X_SEL, 6);
            pMapCfg->xy2caMap[8] = XY2(Y_SEL, 4, Y_SEL, 4);
            pMapCfg->xy2caMap[9] = XY2(Y_SEL, 5, Y_SEL, 6);

            //bank
            pMapCfg->xy2baMap[0] = XY2BANK(0,X_SEL, 7, 4, X_SEL, 7);
            pMapCfg->xy2baMap[1] = XY2BANK(0,X_SEL, 8, 4, X_SEL, 8);
            pMapCfg->xy2baMap[2] = XY2BANK(0,X_SEL, 9, 4, X_SEL, 9);
            pMapCfg->xy2baMap[3] = XY2BANK(0,Y_SEL, 6, 4, Y_SEL, 5);

            //ras
            pMapCfg->xy2raMap[ 0] = XY2(X_SEL, 10, X_SEL, 10);
            pMapCfg->xy2raMap[ 1] = XY2(Y_SEL, 7, Y_SEL, 7);
            pMapCfg->xy2raMap[ 2] = XY2(Y_SEL, 8, Y_SEL, 8);
            pMapCfg->xy2raMap[ 3] = XY2(Y_SEL, 9, Y_SEL, 9);
            pMapCfg->xy2raMap[ 4] = XY2(Y_SEL,10, Y_SEL,10);

            pMapCfg->xy2raMap[ 5] = XY2(Y_SEL,11, Y_SEL,11);
            pMapCfg->xy2raMap[ 6] = XY2(Y_SEL,12, Y_SEL,12);
            pMapCfg->xy2raMap[ 7] = XY2(Y_SEL,13, Y_SEL,13);
            pMapCfg->xy2raMap[ 8] = XY2(Y_SEL,14, Y_SEL,14);
            pMapCfg->xy2raMap[ 9] = XY2(Y_SEL,15, Y_SEL,15);
        }
        //xy2rbcConfig
        pMapCfg->xy2rbcConfig = XY2CONFIG(0,0,0,1,1,15,0,15,0);
        break;
    case TILED_FRAME_H_MAP:
        if (dramCfg->casBit == 9 && dramCfg->bankBit == 2 && dramCfg->rasBit == 13) // CNN setting 
        {
            //cas
            pMapCfg->xy2caMap[0] = XY2(X_SEL, 3, X_SEL, 3);
            pMapCfg->xy2caMap[1] = XY2(X_SEL, 4, X_SEL, 4);
            pMapCfg->xy2caMap[2] = XY2(X_SEL, 5, X_SEL, 5);
            pMapCfg->xy2caMap[3] = XY2(X_SEL, 6, X_SEL, 6);
            pMapCfg->xy2caMap[4] = XY2(Y_SEL, 0, Y_SEL, 0);
            pMapCfg->xy2caMap[5] = XY2(Y_SEL, 1, Y_SEL, 1);
            pMapCfg->xy2caMap[6] = XY2(Y_SEL, 2, Y_SEL, 2);
            pMapCfg->xy2caMap[7] = XY2(Y_SEL, 3, Y_SEL, 3);
            pMapCfg->xy2caMap[8] = XY2(Y_SEL, 4, Y_SEL, 5);

            //bank
            pMapCfg->xy2baMap[0] = XY2BANK(0,X_SEL, 7, 4,X_SEL, 7);
            pMapCfg->xy2baMap[1] = XY2BANK(0,Y_SEL, 5, 4,Y_SEL, 4);

            //ras
            pMapCfg->xy2raMap[ 0] = XY2(X_SEL, 8, X_SEL, 8);
            pMapCfg->xy2raMap[ 1] = XY2(X_SEL, 9, X_SEL, 9);
            pMapCfg->xy2raMap[ 2] = XY2(X_SEL,10, X_SEL,10);
            pMapCfg->xy2raMap[ 3] = XY2(Y_SEL, 6, Y_SEL, 6);
            pMapCfg->xy2raMap[ 4] = XY2(Y_SEL, 7, Y_SEL, 7);
            pMapCfg->xy2raMap[ 5] = XY2(Y_SEL, 8, Y_SEL, 8);
            pMapCfg->xy2raMap[ 6] = XY2(Y_SEL, 9, Y_SEL, 9);
            pMapCfg->xy2raMap[ 7] = XY2(Y_SEL,10, Y_SEL,10);
            pMapCfg->xy2raMap[ 8] = XY2(Y_SEL,11, Y_SEL,11);
            pMapCfg->xy2raMap[ 9] = XY2(Y_SEL,12, Y_SEL,12);
            pMapCfg->xy2raMap[10] = XY2(Y_SEL,13, Y_SEL,13);
            pMapCfg->xy2raMap[11] = XY2(Y_SEL,14, Y_SEL,14);
            pMapCfg->xy2raMap[12] = XY2(Y_SEL,15, Y_SEL,15);

        }
        else if(dramCfg->casBit == 10 && dramCfg->bankBit == 3 && dramCfg->rasBit == 13) 
        {
            //cas
            pMapCfg->xy2caMap[0] = XY2(Z_SEL, 0, Z_SEL, 0);
            pMapCfg->xy2caMap[1] = XY2(X_SEL, 3, X_SEL, 3);
            pMapCfg->xy2caMap[2] = XY2(X_SEL, 4, X_SEL, 4);
            pMapCfg->xy2caMap[3] = XY2(X_SEL, 5, X_SEL, 5);
            pMapCfg->xy2caMap[4] = XY2(X_SEL, 6, X_SEL, 6);
            pMapCfg->xy2caMap[5] = XY2(Y_SEL, 0, Y_SEL, 0);
            pMapCfg->xy2caMap[6] = XY2(Y_SEL, 1, Y_SEL, 1);
            pMapCfg->xy2caMap[7] = XY2(Y_SEL, 2, Y_SEL, 2);
            pMapCfg->xy2caMap[8] = XY2(Y_SEL, 3, Y_SEL, 3);
            pMapCfg->xy2caMap[9] = XY2(Y_SEL, 4, Y_SEL, 4);

            //bank
            pMapCfg->xy2baMap[0] = XY2BANK(0,X_SEL, 7, 4, X_SEL, 7); 
            pMapCfg->xy2baMap[1] = XY2BANK(0,X_SEL, 8, 4, X_SEL, 8); 
            pMapCfg->xy2baMap[2] = XY2BANK(0,Y_SEL, 5, 4, Y_SEL, 5); 
                pMapCfg->xy2raMap[ 0] = XY2(X_SEL, 9, X_SEL, 9);
                pMapCfg->xy2raMap[ 1] = XY2(X_SEL,10, X_SEL,10);
                pMapCfg->xy2raMap[ 2] = XY2(Y_SEL, 6, Y_SEL, 6);
                pMapCfg->xy2raMap[ 3] = XY2(Y_SEL, 7, Y_SEL, 7);
                pMapCfg->xy2raMap[ 4] = XY2(Y_SEL, 8, Y_SEL, 8);
                pMapCfg->xy2raMap[ 5] = XY2(Y_SEL, 9, Y_SEL, 9);
                pMapCfg->xy2raMap[ 6] = XY2(Y_SEL,10, Y_SEL,10);
                pMapCfg->xy2raMap[ 7] = XY2(Y_SEL,11, Y_SEL,11);
                pMapCfg->xy2raMap[ 8] = XY2(Y_SEL,12, Y_SEL,12);
                pMapCfg->xy2raMap[ 9] = XY2(Y_SEL,13, Y_SEL,13);
                pMapCfg->xy2raMap[10] = XY2(Y_SEL,14, Y_SEL,14);
                pMapCfg->xy2raMap[11] = XY2(Y_SEL,15, Y_SEL,15);
        }
        //xy2rbcConfig
        pMapCfg->xy2rbcConfig = XY2CONFIG(0,0,0,1,0,15,15,15,15);
        break;
    case TILED_FIELD_V_MAP:
        if (dramCfg->casBit == 9 && dramCfg->bankBit == 2 && dramCfg->rasBit == 13) // CNN setting 
        {
            //cas
            pMapCfg->xy2caMap[0] = XY2(Y_SEL, 0, Y_SEL, 0);
            pMapCfg->xy2caMap[1] = XY2(Y_SEL, 1, Y_SEL, 1);
            pMapCfg->xy2caMap[2] = XY2(Y_SEL, 2, Y_SEL, 2);
            pMapCfg->xy2caMap[3] = XY2(Y_SEL, 3, Y_SEL, 3);
            pMapCfg->xy2caMap[4] = XY2(X_SEL, 3, X_SEL, 3);
            pMapCfg->xy2caMap[5] = XY2(X_SEL, 4, X_SEL, 4);
            pMapCfg->xy2caMap[6] = XY2(X_SEL, 5, X_SEL, 5);
            pMapCfg->xy2caMap[7] = XY2(X_SEL, 6, X_SEL, 6);
            pMapCfg->xy2caMap[8] = XY2(Y_SEL, 4, Y_SEL, 5);

            //bank
            pMapCfg->xy2baMap[0] = XY2BANK(0,X_SEL, 7, 4,X_SEL, 7);
            pMapCfg->xy2baMap[1] = XY2BANK(1,Y_SEL, 5, 5,Y_SEL, 4);

            //ras
            pMapCfg->xy2raMap[ 0] = XY2(X_SEL, 8, X_SEL, 8);
            pMapCfg->xy2raMap[ 1] = XY2(X_SEL, 9, X_SEL, 9);
            pMapCfg->xy2raMap[ 2] = XY2(X_SEL,10, X_SEL,10);
            pMapCfg->xy2raMap[ 3] = XY2(Y_SEL, 6, Y_SEL, 6);
            pMapCfg->xy2raMap[ 4] = XY2(Y_SEL, 7, Y_SEL, 7);
            pMapCfg->xy2raMap[ 5] = XY2(Y_SEL, 8, Y_SEL, 8);
            pMapCfg->xy2raMap[ 6] = XY2(Y_SEL, 9, Y_SEL, 9);
            pMapCfg->xy2raMap[ 7] = XY2(Y_SEL,10, Y_SEL,10);
            pMapCfg->xy2raMap[ 8] = XY2(Y_SEL,11, Y_SEL,11);
            pMapCfg->xy2raMap[ 9] = XY2(Y_SEL,12, Y_SEL,12);
            pMapCfg->xy2raMap[10] = XY2(Y_SEL,13, Y_SEL,13);
            pMapCfg->xy2raMap[11] = XY2(Y_SEL,14, Y_SEL,14);
            pMapCfg->xy2raMap[12] = XY2(Y_SEL,15, Y_SEL,15);
        }
        else if(dramCfg->casBit == 10 && dramCfg->bankBit == 3 && dramCfg->rasBit == 13)
        {
            //cas
            pMapCfg->xy2caMap[0] = XY2(Z_SEL, 0, Z_SEL, 0);
            pMapCfg->xy2caMap[1] = XY2(Y_SEL, 0, Y_SEL, 0);
            pMapCfg->xy2caMap[2] = XY2(Y_SEL, 1, Y_SEL, 1);
            pMapCfg->xy2caMap[3] = XY2(Y_SEL, 2, Y_SEL, 2);
            pMapCfg->xy2caMap[4] = XY2(Y_SEL, 3, Y_SEL, 3);
            pMapCfg->xy2caMap[5] = XY2(X_SEL, 3, X_SEL, 3);
            pMapCfg->xy2caMap[6] = XY2(X_SEL, 4, X_SEL, 4);
            pMapCfg->xy2caMap[7] = XY2(X_SEL, 5, X_SEL, 5);
            pMapCfg->xy2caMap[8] = XY2(X_SEL, 6, X_SEL, 6);
            pMapCfg->xy2caMap[9] = XY2(Y_SEL, 4, Y_SEL, 4);

            //bank
            pMapCfg->xy2baMap[0] = XY2BANK(0,X_SEL, 7, 4, X_SEL, 7); 
            pMapCfg->xy2baMap[1] = XY2BANK(0,X_SEL, 8, 4, X_SEL, 8); 
            pMapCfg->xy2baMap[2] = XY2BANK(0,Y_SEL, 5, 4, Y_SEL, 5); 
                pMapCfg->xy2raMap[ 0] = XY2(X_SEL, 9, X_SEL, 9);
                pMapCfg->xy2raMap[ 1] = XY2(X_SEL,10, X_SEL,10);
                pMapCfg->xy2raMap[ 2] = XY2(Y_SEL, 6, Y_SEL, 6);
                pMapCfg->xy2raMap[ 3] = XY2(Y_SEL, 7, Y_SEL, 7);
                pMapCfg->xy2raMap[ 4] = XY2(Y_SEL, 8, Y_SEL, 8);
                pMapCfg->xy2raMap[ 5] = XY2(Y_SEL, 9, Y_SEL, 9);
                pMapCfg->xy2raMap[ 6] = XY2(Y_SEL,10, Y_SEL,10);
                pMapCfg->xy2raMap[ 7] = XY2(Y_SEL,11, Y_SEL,11);
                pMapCfg->xy2raMap[ 8] = XY2(Y_SEL,12, Y_SEL,12);
                pMapCfg->xy2raMap[ 9] = XY2(Y_SEL,13, Y_SEL,13);
                pMapCfg->xy2raMap[10] = XY2(Y_SEL,14, Y_SEL,14);
                pMapCfg->xy2raMap[11] = XY2(Y_SEL,15, Y_SEL,15);
        }
        else if (dramCfg->casBit == 10 && dramCfg->bankBit == 3 && dramCfg->rasBit == 16) // // DDR3 3BA, DDR4 1BG+2BA
        {
            pMapCfg->xy2caMap[0] = XY2(Y_SEL, 0, Y_SEL, 0);
            pMapCfg->xy2caMap[1] = XY2(Y_SEL, 1, Y_SEL, 1);
            pMapCfg->xy2caMap[2] = XY2(Y_SEL, 2, Y_SEL, 2);
            pMapCfg->xy2caMap[3] = XY2(Y_SEL, 3, Y_SEL, 3);

            pMapCfg->xy2caMap[4] = XY2(X_SEL, 3, X_SEL, 3);
            pMapCfg->xy2caMap[5] = XY2(X_SEL, 4, X_SEL, 4);
            pMapCfg->xy2caMap[6] = XY2(X_SEL, 5, X_SEL, 5);
            pMapCfg->xy2caMap[7] = XY2(X_SEL, 6, X_SEL, 6);
            pMapCfg->xy2caMap[8] = XY2(X_SEL, 7, X_SEL, 7);
            pMapCfg->xy2caMap[9] = XY2(Y_SEL, 4, Y_SEL, 5);

            //bank
            pMapCfg->xy2baMap[0] = XY2BANK(0,X_SEL, 8, 4, X_SEL, 8);
            pMapCfg->xy2baMap[1] = XY2BANK(0,X_SEL, 9, 4, X_SEL, 9);
            pMapCfg->xy2baMap[2] = XY2BANK(1,Y_SEL, 5, 5, Y_SEL, 4);
            
            //ras
            pMapCfg->xy2raMap[ 0] = XY2(X_SEL, 10, X_SEL, 10);
            pMapCfg->xy2raMap[ 1] = XY2(Y_SEL, 6, Y_SEL, 6);
            pMapCfg->xy2raMap[ 2] = XY2(Y_SEL, 7, Y_SEL, 7);
            pMapCfg->xy2raMap[ 3] = XY2(Y_SEL, 8, Y_SEL, 8);
            pMapCfg->xy2raMap[ 4] = XY2(Y_SEL, 9, Y_SEL, 9);
            pMapCfg->xy2raMap[ 5] = XY2(Y_SEL, 10, Y_SEL,10);
            
            pMapCfg->xy2raMap[ 6] = XY2(Y_SEL,11, Y_SEL,11);
            pMapCfg->xy2raMap[ 7] = XY2(Y_SEL,12, Y_SEL,12);
            pMapCfg->xy2raMap[ 8] = XY2(Y_SEL,13, Y_SEL,13);
            pMapCfg->xy2raMap[ 9] = XY2(Y_SEL,14, Y_SEL,14);
            pMapCfg->xy2raMap[10] = XY2(Y_SEL,15, Y_SEL,15);
        }        
        else if (dramCfg->casBit == 10 && dramCfg->bankBit == 4 && dramCfg->rasBit == 15) // // DDR3 4BA, DDR4 2BG+2BA
        {
            //cas
            pMapCfg->xy2caMap[0] = XY2(Y_SEL, 0, Y_SEL, 0);
            pMapCfg->xy2caMap[1] = XY2(Y_SEL, 1, Y_SEL, 1);
            pMapCfg->xy2caMap[2] = XY2(Y_SEL, 2, Y_SEL, 2);
            pMapCfg->xy2caMap[3] = XY2(Y_SEL, 3, Y_SEL, 3);

            pMapCfg->xy2caMap[4] = XY2(X_SEL, 3, X_SEL, 3);
            pMapCfg->xy2caMap[5] = XY2(X_SEL, 4, X_SEL, 4);
            pMapCfg->xy2caMap[6] = XY2(X_SEL, 5, X_SEL, 5);
            pMapCfg->xy2caMap[7] = XY2(X_SEL, 6, X_SEL, 6);
            pMapCfg->xy2caMap[8] = XY2(Y_SEL, 4, Y_SEL, 4);
            pMapCfg->xy2caMap[9] = XY2(Y_SEL, 5, Y_SEL, 6);

        //xy2rbcConfig
            pMapCfg->xy2baMap[0] = XY2BANK(0,X_SEL, 7, 4, X_SEL, 7);
            pMapCfg->xy2baMap[1] = XY2BANK(0,X_SEL, 8, 4, X_SEL, 8);
            pMapCfg->xy2baMap[2] = XY2BANK(0,X_SEL, 9, 4, X_SEL, 9);
            pMapCfg->xy2baMap[3] = XY2BANK(1,Y_SEL, 6, 5, Y_SEL, 5);

            //ras
            pMapCfg->xy2raMap[ 0] = XY2(X_SEL, 10, X_SEL, 10);
            pMapCfg->xy2raMap[ 1] = XY2(Y_SEL, 7, Y_SEL, 7);
            pMapCfg->xy2raMap[ 2] = XY2(Y_SEL, 8, Y_SEL, 8);
            pMapCfg->xy2raMap[ 3] = XY2(Y_SEL, 9, Y_SEL, 9);
            pMapCfg->xy2raMap[ 4] = XY2(Y_SEL,10, Y_SEL,10);

            pMapCfg->xy2raMap[ 5] = XY2(Y_SEL,11, Y_SEL,11);
            pMapCfg->xy2raMap[ 6] = XY2(Y_SEL,12, Y_SEL,12);
            pMapCfg->xy2raMap[ 7] = XY2(Y_SEL,13, Y_SEL,13);
            pMapCfg->xy2raMap[ 8] = XY2(Y_SEL,14, Y_SEL,14);
            pMapCfg->xy2raMap[ 9] = XY2(Y_SEL,15, Y_SEL,15);
        }
        //xy2rbcConfig
        pMapCfg->xy2rbcConfig = XY2CONFIG(0,1,1,1,1,15,15,15,15);
        break;
    case TILED_MIXED_V_MAP:
        //cas
        if (dramCfg->casBit == 9 && dramCfg->bankBit == 2 && dramCfg->rasBit == 13) // CNN setting 
        {
            pMapCfg->xy2caMap[0] = XY2(Y_SEL, 1, Y_SEL, 1);
            pMapCfg->xy2caMap[1] = XY2(Y_SEL, 2, Y_SEL, 2);
            pMapCfg->xy2caMap[2] = XY2(Y_SEL, 3, Y_SEL, 3);
            pMapCfg->xy2caMap[3] = XY2(Y_SEL, 0, Y_SEL, 0);
            pMapCfg->xy2caMap[4] = XY2(X_SEL, 3, X_SEL, 3);
            pMapCfg->xy2caMap[5] = XY2(X_SEL, 4, X_SEL, 4);
            pMapCfg->xy2caMap[6] = XY2(X_SEL, 5, X_SEL, 5);
            pMapCfg->xy2caMap[7] = XY2(X_SEL, 6, X_SEL, 6);
            pMapCfg->xy2caMap[8] = XY2(Y_SEL, 4, Y_SEL, 5);

            pMapCfg->xy2baMap[0] = XY2BANK(0,X_SEL, 7, 4,X_SEL, 7);
            pMapCfg->xy2baMap[1] = XY2BANK(0,Y_SEL, 5, 4,Y_SEL, 4);

            pMapCfg->xy2raMap[ 0] = XY2(X_SEL, 8, X_SEL, 8);
            pMapCfg->xy2raMap[ 1] = XY2(X_SEL, 9, X_SEL, 9);
            pMapCfg->xy2raMap[ 2] = XY2(X_SEL,10, X_SEL,10);
            pMapCfg->xy2raMap[ 3] = XY2(Y_SEL, 6, Y_SEL, 6);
            pMapCfg->xy2raMap[ 4] = XY2(Y_SEL, 7, Y_SEL, 7);
            pMapCfg->xy2raMap[ 5] = XY2(Y_SEL, 8, Y_SEL, 8);
            pMapCfg->xy2raMap[ 6] = XY2(Y_SEL, 9, Y_SEL, 9);
            pMapCfg->xy2raMap[ 7] = XY2(Y_SEL,10, Y_SEL,10);
            pMapCfg->xy2raMap[ 8] = XY2(Y_SEL,11, Y_SEL,11);
            pMapCfg->xy2raMap[ 9] = XY2(Y_SEL,12, Y_SEL,12);
            pMapCfg->xy2raMap[10] = XY2(Y_SEL,13, Y_SEL,13);
            pMapCfg->xy2raMap[11] = XY2(Y_SEL,14, Y_SEL,14);
            pMapCfg->xy2raMap[12] = XY2(Y_SEL,15, Y_SEL,15);
        }
        else if(dramCfg->casBit == 10 && dramCfg->bankBit == 3 && dramCfg->rasBit == 13)
        {
            //cas
            pMapCfg->xy2caMap[0] = XY2(Z_SEL, 0, Z_SEL, 0);
            pMapCfg->xy2caMap[1] = XY2(Y_SEL, 1, Y_SEL, 1);
            pMapCfg->xy2caMap[2] = XY2(Y_SEL, 2, Y_SEL, 2);
            pMapCfg->xy2caMap[3] = XY2(Y_SEL, 3, Y_SEL, 3);
            pMapCfg->xy2caMap[4] = XY2(Y_SEL, 0, Y_SEL, 0);
            pMapCfg->xy2caMap[5] = XY2(X_SEL, 3, X_SEL, 3);
            pMapCfg->xy2caMap[6] = XY2(X_SEL, 4, X_SEL, 4);
            pMapCfg->xy2caMap[7] = XY2(X_SEL, 5, X_SEL, 5);
            pMapCfg->xy2caMap[8] = XY2(X_SEL, 6, X_SEL, 6);
            pMapCfg->xy2caMap[9] = XY2(Y_SEL, 4, Y_SEL, 4);

            //bank
            pMapCfg->xy2baMap[0] = XY2BANK(0,X_SEL, 7, 4, X_SEL, 7); 
            pMapCfg->xy2baMap[1] = XY2BANK(0,X_SEL, 8, 4, X_SEL, 8); 
            pMapCfg->xy2baMap[2] = XY2BANK(0,Y_SEL, 5, 4, Y_SEL, 5); 
                pMapCfg->xy2raMap[ 0] = XY2(X_SEL, 9, X_SEL, 9);
                pMapCfg->xy2raMap[ 1] = XY2(X_SEL,10, X_SEL,10);
                pMapCfg->xy2raMap[ 2] = XY2(Y_SEL, 6, Y_SEL, 6);
                pMapCfg->xy2raMap[ 3] = XY2(Y_SEL, 7, Y_SEL, 7);
                pMapCfg->xy2raMap[ 4] = XY2(Y_SEL, 8, Y_SEL, 8);
                pMapCfg->xy2raMap[ 5] = XY2(Y_SEL, 9, Y_SEL, 9);
                pMapCfg->xy2raMap[ 6] = XY2(Y_SEL,10, Y_SEL,10);
                pMapCfg->xy2raMap[ 7] = XY2(Y_SEL,11, Y_SEL,11);
                pMapCfg->xy2raMap[ 8] = XY2(Y_SEL,12, Y_SEL,12);
                pMapCfg->xy2raMap[ 9] = XY2(Y_SEL,13, Y_SEL,13);
                pMapCfg->xy2raMap[10] = XY2(Y_SEL,14, Y_SEL,14);
                pMapCfg->xy2raMap[11] = XY2(Y_SEL,15, Y_SEL,15);
        }

        //xy2rbcConfig
        pMapCfg->xy2rbcConfig = XY2CONFIG(0,0,1,1,1,7,7,7,7);
        break;
    case TILED_FRAME_MB_RASTER_MAP:
        //cas
        pMapCfg->xy2caMap[0] = XY2(Y_SEL, 0, Y_SEL, 0);
        pMapCfg->xy2caMap[1] = XY2(Y_SEL, 1, Y_SEL, 1);
        pMapCfg->xy2caMap[2] = XY2(Y_SEL, 2, Y_SEL, 2);
        pMapCfg->xy2caMap[3] = XY2(Y_SEL, 3, X_SEL, 3);
        pMapCfg->xy2caMap[4] = XY2(X_SEL, 3, 4    , 0);

        //xy2rbcConfig
        pMapCfg->xy2rbcConfig = XY2CONFIG(0,0,0,1,1,15,0,7,0);
        break;
    case TILED_FIELD_MB_RASTER_MAP:
        //cas
        pMapCfg->xy2caMap[0] = XY2(Y_SEL, 0, Y_SEL, 0);
        pMapCfg->xy2caMap[1] = XY2(Y_SEL, 1, Y_SEL, 1);
        pMapCfg->xy2caMap[2] = XY2(Y_SEL, 2, X_SEL, 3);
        pMapCfg->xy2caMap[3] = XY2(X_SEL, 3, 4    , 0);

        //xy2rbcConfig
        pMapCfg->xy2rbcConfig = XY2CONFIG(0,1,1,1,1,7,7,3,3);	
        break;
    default:
        return 0;
        break;
    }

    if (mapType == TILED_FRAME_MB_RASTER_MAP)
    {
        pMapCfg->rbc2axiMap[ 0] = RBC( Z_SEL, 0,  Z_SEL, 0);
        pMapCfg->rbc2axiMap[ 1] = RBC( Z_SEL, 0,  Z_SEL, 0);
        pMapCfg->rbc2axiMap[ 2] = RBC( Z_SEL, 0,  Z_SEL, 0);
        pMapCfg->rbc2axiMap[ 3] = RBC(CA_SEL, 0, CA_SEL, 0);
        pMapCfg->rbc2axiMap[ 4] = RBC(CA_SEL, 1, CA_SEL, 1);
        pMapCfg->rbc2axiMap[ 5] = RBC(CA_SEL, 2, CA_SEL, 2);
        pMapCfg->rbc2axiMap[ 6] = RBC(CA_SEL, 3, CA_SEL, 3);
        pMapCfg->rbc2axiMap[ 7] = RBC(CA_SEL, 4, CA_SEL, 8);
        pMapCfg->rbc2axiMap[ 8] = RBC(CA_SEL, 8, CA_SEL, 9);
        pMapCfg->rbc2axiMap[ 9] = RBC(CA_SEL, 9, CA_SEL,10);
        pMapCfg->rbc2axiMap[10] = RBC(CA_SEL,10, CA_SEL,11);
        pMapCfg->rbc2axiMap[11] = RBC(CA_SEL,11, CA_SEL,12);
        pMapCfg->rbc2axiMap[12] = RBC(CA_SEL,12, CA_SEL,13);
        pMapCfg->rbc2axiMap[13] = RBC(CA_SEL,13, CA_SEL,14);
        pMapCfg->rbc2axiMap[14] = RBC(CA_SEL,14, CA_SEL,15);
        pMapCfg->rbc2axiMap[15] = RBC(CA_SEL,15, RA_SEL, 0);
        pMapCfg->rbc2axiMap[16] = RBC(RA_SEL, 0, RA_SEL, 1);
        pMapCfg->rbc2axiMap[17] = RBC(RA_SEL, 1, RA_SEL, 2);
        pMapCfg->rbc2axiMap[18] = RBC(RA_SEL, 2, RA_SEL, 3);
        pMapCfg->rbc2axiMap[19] = RBC(RA_SEL, 3, RA_SEL, 4);
        pMapCfg->rbc2axiMap[20] = RBC(RA_SEL, 4, RA_SEL, 5);
        pMapCfg->rbc2axiMap[21] = RBC(RA_SEL, 5, RA_SEL, 6);
        pMapCfg->rbc2axiMap[22] = RBC(RA_SEL, 6, RA_SEL, 7);
        pMapCfg->rbc2axiMap[23] = RBC(RA_SEL, 7, RA_SEL, 8);
        pMapCfg->rbc2axiMap[24] = RBC(RA_SEL, 8, RA_SEL, 9);
        pMapCfg->rbc2axiMap[25] = RBC(RA_SEL, 9, RA_SEL,10);
        pMapCfg->rbc2axiMap[26] = RBC(RA_SEL,10, RA_SEL,11);
        pMapCfg->rbc2axiMap[27] = RBC(RA_SEL,11, RA_SEL,12);
        pMapCfg->rbc2axiMap[28] = RBC(RA_SEL,12, RA_SEL,13);
        pMapCfg->rbc2axiMap[29] = RBC(RA_SEL,13, RA_SEL,14);
        pMapCfg->rbc2axiMap[30] = RBC(RA_SEL,14, RA_SEL,15);
        pMapCfg->rbc2axiMap[31] = RBC(RA_SEL,15,  Z_SEL, 0);
        ret = 1;
    } 
    else if (mapType == TILED_FIELD_MB_RASTER_MAP) 
    {
        pMapCfg->rbc2axiMap[ 0] = RBC(Z_SEL ,0  ,Z_SEL , 0);
        pMapCfg->rbc2axiMap[ 1] = RBC(Z_SEL ,0  ,Z_SEL , 0);
        pMapCfg->rbc2axiMap[ 2] = RBC(Z_SEL ,0  ,Z_SEL , 0);
        pMapCfg->rbc2axiMap[ 3] = RBC(CA_SEL,0  ,CA_SEL, 0);
        pMapCfg->rbc2axiMap[ 4] = RBC(CA_SEL,1  ,CA_SEL, 1);
        pMapCfg->rbc2axiMap[ 5] = RBC(CA_SEL,2  ,CA_SEL, 2);
        pMapCfg->rbc2axiMap[ 6] = RBC(CA_SEL,3  ,CA_SEL, 8);
        pMapCfg->rbc2axiMap[ 7] = RBC(CA_SEL,8,  CA_SEL, 9);
        pMapCfg->rbc2axiMap[ 8] = RBC(CA_SEL,9,  CA_SEL,10);
        pMapCfg->rbc2axiMap[ 9] = RBC(CA_SEL,10 ,CA_SEL,11);
        pMapCfg->rbc2axiMap[10] = RBC(CA_SEL,11 ,CA_SEL,12);
        pMapCfg->rbc2axiMap[11] = RBC(CA_SEL,12 ,CA_SEL,13);
        pMapCfg->rbc2axiMap[12] = RBC(CA_SEL,13 ,CA_SEL,14);
        pMapCfg->rbc2axiMap[13] = RBC(CA_SEL,14 ,CA_SEL,15);
        pMapCfg->rbc2axiMap[14] = RBC(CA_SEL,15 ,RA_SEL, 0);

        pMapCfg->rbc2axiMap[15] = RBC(RA_SEL,0  ,RA_SEL, 1);
        pMapCfg->rbc2axiMap[16] = RBC(RA_SEL,1  ,RA_SEL, 2);
        pMapCfg->rbc2axiMap[17] = RBC(RA_SEL,2  ,RA_SEL, 3);
        pMapCfg->rbc2axiMap[18] = RBC(RA_SEL,3  ,RA_SEL, 4);
        pMapCfg->rbc2axiMap[19] = RBC(RA_SEL,4  ,RA_SEL, 5);
        pMapCfg->rbc2axiMap[20] = RBC(RA_SEL,5  ,RA_SEL, 6);
        pMapCfg->rbc2axiMap[21] = RBC(RA_SEL,6  ,RA_SEL, 7);
        pMapCfg->rbc2axiMap[22] = RBC(RA_SEL,7  ,RA_SEL, 8);
        pMapCfg->rbc2axiMap[23] = RBC(RA_SEL,8  ,RA_SEL, 9);
        pMapCfg->rbc2axiMap[24] = RBC(RA_SEL,9  ,RA_SEL,10);
        pMapCfg->rbc2axiMap[25] = RBC(RA_SEL,10 ,RA_SEL,11);
        pMapCfg->rbc2axiMap[26] = RBC(RA_SEL,11 ,RA_SEL,12);
        pMapCfg->rbc2axiMap[27] = RBC(RA_SEL,12 ,RA_SEL,13);
        pMapCfg->rbc2axiMap[28] = RBC(RA_SEL,13 ,RA_SEL,14);
        pMapCfg->rbc2axiMap[29] = RBC(RA_SEL,14 ,RA_SEL,15);
        pMapCfg->rbc2axiMap[30] = RBC(RA_SEL,15 , Z_SEL, 0);
        pMapCfg->rbc2axiMap[31] = RBC(Z_SEL , 0 , Z_SEL, 0);
        ret = 1;
    } 
    else 
    {
        if (dramCfg->casBit == 9 && dramCfg->bankBit == 2 && dramCfg->rasBit == 13)
        {
            pMapCfg->rbc2axiMap[ 0] = RBC(Z_SEL,0, Z_SEL,0);
            pMapCfg->rbc2axiMap[ 1] = RBC(Z_SEL,0, Z_SEL,0);
            pMapCfg->rbc2axiMap[ 2] = RBC(Z_SEL,0, Z_SEL,0);
            pMapCfg->rbc2axiMap[ 3] = RBC(CA_SEL,0,CA_SEL,0);
            pMapCfg->rbc2axiMap[ 4] = RBC(CA_SEL,1,CA_SEL,1);
            pMapCfg->rbc2axiMap[ 5] = RBC(CA_SEL,2,CA_SEL,2);
            pMapCfg->rbc2axiMap[ 6] = RBC(CA_SEL,3,CA_SEL,3);
            pMapCfg->rbc2axiMap[ 7] = RBC(CA_SEL,4,CA_SEL,4);
            pMapCfg->rbc2axiMap[ 8] = RBC(CA_SEL,5,CA_SEL,5);
            pMapCfg->rbc2axiMap[ 9] = RBC(CA_SEL,6,CA_SEL,6);
            pMapCfg->rbc2axiMap[10] = RBC(CA_SEL,7,CA_SEL,7);
            pMapCfg->rbc2axiMap[11] = RBC(CA_SEL,8,CA_SEL,8);

            pMapCfg->rbc2axiMap[12] = RBC(BA_SEL,0, BA_SEL,0);
            pMapCfg->rbc2axiMap[13] = RBC(BA_SEL,1, BA_SEL,1);

            pMapCfg->rbc2axiMap[14] = RBC(RA_SEL,0, RA_SEL, 0);
            pMapCfg->rbc2axiMap[15] = RBC(RA_SEL,1, RA_SEL, 1);
            pMapCfg->rbc2axiMap[16] = RBC(RA_SEL,2 ,RA_SEL, 2);
            pMapCfg->rbc2axiMap[17] = RBC(RA_SEL,3 ,RA_SEL, 3);
            pMapCfg->rbc2axiMap[18] = RBC(RA_SEL,4 ,RA_SEL, 4);
            pMapCfg->rbc2axiMap[19] = RBC(RA_SEL,5 ,RA_SEL, 5);
            pMapCfg->rbc2axiMap[20] = RBC(RA_SEL,6 ,RA_SEL, 6);
            pMapCfg->rbc2axiMap[21] = RBC(RA_SEL,7 ,RA_SEL, 7);
            pMapCfg->rbc2axiMap[22] = RBC(RA_SEL,8 ,RA_SEL, 8);
            pMapCfg->rbc2axiMap[23] = RBC(RA_SEL,9 ,RA_SEL, 9);
            pMapCfg->rbc2axiMap[24] = RBC(RA_SEL,10,RA_SEL,10);
            pMapCfg->rbc2axiMap[25] = RBC(RA_SEL,11,RA_SEL,11);
            pMapCfg->rbc2axiMap[26] = RBC(RA_SEL,12,RA_SEL,12);
            pMapCfg->rbc2axiMap[27] = RBC(RA_SEL,13,RA_SEL,13);
            pMapCfg->rbc2axiMap[28] = RBC(RA_SEL,14,RA_SEL,14);
            pMapCfg->rbc2axiMap[29] = RBC(RA_SEL,15,RA_SEL,15);
            pMapCfg->rbc2axiMap[30] = RBC(Z_SEL , 0, Z_SEL, 0);
            pMapCfg->rbc2axiMap[31] = RBC(Z_SEL , 0, Z_SEL, 0);

            ret = 1;
        }
        else if(dramCfg->casBit == 10 && dramCfg->bankBit == 3 && dramCfg->rasBit == 13)
        {
            pMapCfg->rbc2axiMap[ 0] = RBC(Z_SEL, 0, Z_SEL,0);
            pMapCfg->rbc2axiMap[ 1] = RBC(Z_SEL, 0, Z_SEL,0);
            pMapCfg->rbc2axiMap[ 2] = RBC(CA_SEL,0,CA_SEL,0);
            pMapCfg->rbc2axiMap[ 3] = RBC(CA_SEL,1,CA_SEL,1);
            pMapCfg->rbc2axiMap[ 4] = RBC(CA_SEL,2,CA_SEL,2);
            pMapCfg->rbc2axiMap[ 5] = RBC(CA_SEL,3,CA_SEL,3);
            pMapCfg->rbc2axiMap[ 6] = RBC(CA_SEL,4,CA_SEL,4);
            pMapCfg->rbc2axiMap[ 7] = RBC(CA_SEL,5,CA_SEL,5);
            pMapCfg->rbc2axiMap[ 8] = RBC(CA_SEL,6,CA_SEL,6);
            pMapCfg->rbc2axiMap[ 9] = RBC(CA_SEL,7,CA_SEL,7);
            pMapCfg->rbc2axiMap[10] = RBC(CA_SEL,8,CA_SEL,8);
            pMapCfg->rbc2axiMap[11] = RBC(CA_SEL,9,CA_SEL,9);

            pMapCfg->rbc2axiMap[12] = RBC(BA_SEL,0, BA_SEL,0);
            pMapCfg->rbc2axiMap[13] = RBC(BA_SEL,1, BA_SEL,1);
            pMapCfg->rbc2axiMap[14] = RBC(BA_SEL,2, BA_SEL,2);

            pMapCfg->rbc2axiMap[15] = RBC(RA_SEL, 0, RA_SEL, 0);
            pMapCfg->rbc2axiMap[16] = RBC(RA_SEL, 1 ,RA_SEL, 1);
            pMapCfg->rbc2axiMap[17] = RBC(RA_SEL, 2 ,RA_SEL, 2);
            pMapCfg->rbc2axiMap[18] = RBC(RA_SEL, 3 ,RA_SEL, 3);
            pMapCfg->rbc2axiMap[19] = RBC(RA_SEL, 4 ,RA_SEL, 4);
            pMapCfg->rbc2axiMap[20] = RBC(RA_SEL, 5 ,RA_SEL, 5);
            pMapCfg->rbc2axiMap[21] = RBC(RA_SEL, 6 ,RA_SEL, 6);
            pMapCfg->rbc2axiMap[22] = RBC(RA_SEL, 7 ,RA_SEL, 7);
            pMapCfg->rbc2axiMap[23] = RBC(RA_SEL, 8 ,RA_SEL, 8);
            pMapCfg->rbc2axiMap[24] = RBC(RA_SEL, 9, RA_SEL, 9);
            pMapCfg->rbc2axiMap[25] = RBC(RA_SEL,10, RA_SEL,10);
            pMapCfg->rbc2axiMap[26] = RBC(RA_SEL,11, RA_SEL,11);
            pMapCfg->rbc2axiMap[27] = RBC(RA_SEL,12, RA_SEL,12);
            pMapCfg->rbc2axiMap[28] = RBC(Z_SEL , 0, Z_SEL , 0);
            pMapCfg->rbc2axiMap[29] = RBC(Z_SEL , 0, Z_SEL , 0);
            pMapCfg->rbc2axiMap[30] = RBC(Z_SEL , 0, Z_SEL , 0);
            pMapCfg->rbc2axiMap[31] = RBC(Z_SEL , 0, Z_SEL , 0);

            ret = 1;
        }
        else if (dramCfg->casBit == 10 && dramCfg->bankBit == 3 && dramCfg->rasBit == 16)  // DDR3 3BA, DDR4 1BG+2BA
        {
            pMapCfg->rbc2axiMap[ 0] = RBC(Z_SEL,0, Z_SEL,0);
            pMapCfg->rbc2axiMap[ 1] = RBC(Z_SEL,0, Z_SEL,0);
            pMapCfg->rbc2axiMap[ 2] = RBC(Z_SEL,0, Z_SEL,0);
            pMapCfg->rbc2axiMap[ 3] = RBC(CA_SEL,0,CA_SEL,0);
            pMapCfg->rbc2axiMap[ 4] = RBC(CA_SEL,1,CA_SEL,1);
            pMapCfg->rbc2axiMap[ 5] = RBC(CA_SEL,2,CA_SEL,2);
            pMapCfg->rbc2axiMap[ 6] = RBC(CA_SEL,3,CA_SEL,3);
            pMapCfg->rbc2axiMap[ 7] = RBC(CA_SEL,4,CA_SEL,4);
            pMapCfg->rbc2axiMap[ 8] = RBC(CA_SEL,5,CA_SEL,5);
            pMapCfg->rbc2axiMap[ 9] = RBC(CA_SEL,6,CA_SEL,6);
            pMapCfg->rbc2axiMap[10] = RBC(CA_SEL,7,CA_SEL,7);
            pMapCfg->rbc2axiMap[11] = RBC(CA_SEL,8,CA_SEL,8);
            pMapCfg->rbc2axiMap[12] = RBC(CA_SEL,9,CA_SEL,9);
                        
            pMapCfg->rbc2axiMap[13] = RBC(BA_SEL,0, BA_SEL,0);
            pMapCfg->rbc2axiMap[14] = RBC(BA_SEL,1, BA_SEL,1);
            pMapCfg->rbc2axiMap[15] = RBC(BA_SEL,2, BA_SEL,2);

            pMapCfg->rbc2axiMap[16] = RBC(RA_SEL,0, RA_SEL, 0);
            pMapCfg->rbc2axiMap[17] = RBC(RA_SEL,1, RA_SEL, 1);
            pMapCfg->rbc2axiMap[18] = RBC(RA_SEL,2 ,RA_SEL, 2);
            pMapCfg->rbc2axiMap[19] = RBC(RA_SEL,3 ,RA_SEL, 3);
            pMapCfg->rbc2axiMap[20] = RBC(RA_SEL,4 ,RA_SEL, 4);
            pMapCfg->rbc2axiMap[21] = RBC(RA_SEL,5 ,RA_SEL, 5);
            pMapCfg->rbc2axiMap[22] = RBC(RA_SEL,6 ,RA_SEL, 6);
            pMapCfg->rbc2axiMap[23] = RBC(RA_SEL,7 ,RA_SEL, 7);
            pMapCfg->rbc2axiMap[24] = RBC(RA_SEL,8 ,RA_SEL, 8);
            pMapCfg->rbc2axiMap[25] = RBC(RA_SEL,9 ,RA_SEL, 9);
            pMapCfg->rbc2axiMap[26] = RBC(RA_SEL,10,RA_SEL,10);
            pMapCfg->rbc2axiMap[27] = RBC(RA_SEL,11,RA_SEL,11);
            pMapCfg->rbc2axiMap[28] = RBC(RA_SEL,12,RA_SEL,12);
            pMapCfg->rbc2axiMap[29] = RBC(RA_SEL,13,RA_SEL,13);
            pMapCfg->rbc2axiMap[30] = RBC(RA_SEL,14,RA_SEL,14);
            pMapCfg->rbc2axiMap[31] = RBC(RA_SEL,15,RA_SEL,15);

            ret = 1;
        }  
        else if (dramCfg->casBit == 10 && dramCfg->bankBit == 4 && dramCfg->rasBit == 15)  // DDR3 4BA, DDR4 2BG+2BA
        {
            pMapCfg->rbc2axiMap[ 0] = RBC(Z_SEL,0, Z_SEL,0);
            pMapCfg->rbc2axiMap[ 1] = RBC(Z_SEL,0, Z_SEL,0);
            pMapCfg->rbc2axiMap[ 2] = RBC(Z_SEL,0, Z_SEL,0);
            pMapCfg->rbc2axiMap[ 3] = RBC(CA_SEL,0,CA_SEL,0);
            pMapCfg->rbc2axiMap[ 4] = RBC(CA_SEL,1,CA_SEL,1);
            pMapCfg->rbc2axiMap[ 5] = RBC(CA_SEL,2,CA_SEL,2);
            pMapCfg->rbc2axiMap[ 6] = RBC(CA_SEL,3,CA_SEL,3);
            pMapCfg->rbc2axiMap[ 7] = RBC(CA_SEL,4,CA_SEL,4);
            pMapCfg->rbc2axiMap[ 8] = RBC(CA_SEL,5,CA_SEL,5);
            pMapCfg->rbc2axiMap[ 9] = RBC(CA_SEL,6,CA_SEL,6);
            pMapCfg->rbc2axiMap[10] = RBC(CA_SEL,7,CA_SEL,7);
            pMapCfg->rbc2axiMap[11] = RBC(CA_SEL,8,CA_SEL,8);
            pMapCfg->rbc2axiMap[12] = RBC(CA_SEL,9,CA_SEL,9);

            pMapCfg->rbc2axiMap[13] = RBC(BA_SEL,2, BA_SEL,2);
            pMapCfg->rbc2axiMap[14] = RBC(BA_SEL,3, BA_SEL,3);
            pMapCfg->rbc2axiMap[15] = RBC(BA_SEL,0, BA_SEL,0);
            pMapCfg->rbc2axiMap[16] = RBC(BA_SEL,1, BA_SEL,1);

            pMapCfg->rbc2axiMap[17] = RBC(RA_SEL,0, RA_SEL, 0);
            pMapCfg->rbc2axiMap[18] = RBC(RA_SEL,1, RA_SEL, 1);
            pMapCfg->rbc2axiMap[19] = RBC(RA_SEL,2 ,RA_SEL, 2);
            pMapCfg->rbc2axiMap[20] = RBC(RA_SEL,3 ,RA_SEL, 3);
            pMapCfg->rbc2axiMap[21] = RBC(RA_SEL,4 ,RA_SEL, 4);
            pMapCfg->rbc2axiMap[22] = RBC(RA_SEL,5 ,RA_SEL, 5);
            pMapCfg->rbc2axiMap[23] = RBC(RA_SEL,6 ,RA_SEL, 6);
            pMapCfg->rbc2axiMap[24] = RBC(RA_SEL,7 ,RA_SEL, 7);
            pMapCfg->rbc2axiMap[25] = RBC(RA_SEL,8 ,RA_SEL, 8);
            pMapCfg->rbc2axiMap[26] = RBC(RA_SEL,9 ,RA_SEL, 9);
            pMapCfg->rbc2axiMap[27] = RBC(RA_SEL,10,RA_SEL,10);
            pMapCfg->rbc2axiMap[28] = RBC(RA_SEL,11,RA_SEL,11);
            pMapCfg->rbc2axiMap[29] = RBC(RA_SEL,12,RA_SEL,12);
            pMapCfg->rbc2axiMap[30] = RBC(RA_SEL,13,RA_SEL,13);
            pMapCfg->rbc2axiMap[31] = RBC(RA_SEL,14,RA_SEL,14);

            ret = 1;
        }              
    }

    for (i=0; i<16; i++) { //xy2ca_map		
        VpuWriteReg(coreIdx, GDI_XY2_CAS_0 + 4*i, pMapCfg->xy2caMap[i]);	
    }

    for (i=0; i<4; i++) { //xy2baMap		
        VpuWriteReg(coreIdx, GDI_XY2_BA_0  + 4*i, pMapCfg->xy2baMap[i]);
    }

    for (i=0; i<16; i++) { //xy2raMap
        VpuWriteReg(coreIdx, GDI_XY2_RAS_0 + 4*i, pMapCfg->xy2raMap[i]);		
    }

    //xy2rbcConfig
    VpuWriteReg(coreIdx, GDI_XY2_RBC_CONFIG,pMapCfg->xy2rbcConfig);
    //// fast access for reading
    pMapCfg->tbSeparateMap  = (pMapCfg->xy2rbcConfig >> 19) & 0x1;
    pMapCfg->topBotSplit    = (pMapCfg->xy2rbcConfig >> 18) & 0x1;
    pMapCfg->tiledMap       = (pMapCfg->xy2rbcConfig >> 17) & 0x1;

    // RAS, BA, CAS -> Axi Addr
    for (i=0; i<32; i++) {
        VpuWriteReg(coreIdx, GDI_RBC2_AXI_0 + 4*i ,pMapCfg->rbc2axiMap[i]);
    }

    return ret;

}

static int GetXY2RBCLogic(int map_val,int xpos,int ypos, int tb)
{
    int invert;
    int assign_zero;
    int tbxor;
    int xysel;
    int bitsel;

    int xypos,xybit,xybit_st1,xybit_st2,xybit_st3;

    invert        = map_val >> 7;
    assign_zero = (map_val & 0x78) >> 6;
    tbxor        = (map_val & 0x3C) >> 5;
    xysel        = (map_val & 0x1E) >> 4;
    bitsel        = map_val & 0x0f; 

    xypos     = (xysel) ? ypos : xpos;
    xybit     = (xypos >> bitsel) & 0x01;
    xybit_st1 = (tbxor)       ? xybit^tb : xybit;
    xybit_st2 = (assign_zero) ? 0 : xybit_st1;
    xybit_st3 = (invert)      ? !xybit_st2 : xybit_st2;

    return xybit_st3;
}

static int GetRBC2AXILogic(int map_val , int ra_in, int ba_in, int ca_in)
{
    int rbc;
    int rst_bit ;
    int rbc_sel = map_val >> 4;
    int bit_sel = map_val & 0x0f;

    if (rbc_sel == 0)
        rbc = ca_in;
    else if (rbc_sel == 1)
        rbc = ba_in;
    else if (rbc_sel == 2)
        rbc = ra_in;
    else 
        rbc = 0;

    rst_bit = ((rbc >> bit_sel) & 1);

    return rst_bit;
}

static int GetXY2AXIAddrV10(TiledMapConfig *pMapCfg, int ycbcr, int posY, int posX, int stride, FrameBuffer *fb)
{
    int ypos_mod;
    int temp;
    int temp_bit;
    int i;    
    int tb;
    int ra_base;
    int ras_base;
    int ra_conv,ba_conv,ca_conv;

    int pix_addr;

    int lum_top_base,chr_top_base;
    int lum_bot_base,chr_bot_base;

    int mbx,mby,mb_addr;
    int temp_val12bit, temp_val6bit;
    int Addr;
    int mb_raster_base;

    if (!pMapCfg)
        return -1;

    pix_addr       = 0;
    mb_raster_base = 0;
    ra_conv        = 0;
    ba_conv        = 0;
    ca_conv        = 0;

    tb = posY & 0x1;

    ypos_mod =  pMapCfg->tbSeparateMap ? posY >> 1 : posY;

    Addr = ycbcr == 0 ? fb->bufY  :
        ycbcr == 2 ? fb->bufCb : fb->bufCr;

    if (fb->mapType == LINEAR_FRAME_MAP) 
        return ((posY * stride) + posX) + Addr;

    // 20bit = AddrY [31:12]
    lum_top_base =   fb->bufY >> 12; 

    // 20bit = AddrY [11: 0], AddrCb[31:24]
    chr_top_base = ((fb->bufY  & 0xfff) << 8) | ((fb->bufCb >> 24) & 0xff);  //12bit +  (32-24) bit

    // 20bit = AddrCb[23: 4]
    lum_bot_base =  (fb->bufCb >> 4) & 0xfffff;

    // 20bit = AddrCb[ 3: 0], AddrCr[31:16]
    chr_bot_base =  ((fb->bufCb & 0xf) << 16) | ((fb->bufCr >> 16) & 0xffff);

    if (fb->mapType == TILED_FRAME_MB_RASTER_MAP || fb->mapType == TILED_FIELD_MB_RASTER_MAP)
    {
        if (ycbcr == 0)
        {
            mbx = posX/16;
            mby = posY/16;
        }
        else //always interleave
        {
            mbx = posX/16;
            mby = posY/8;
        }

        mb_addr = (stride/16) * mby + mbx;        

        // ca[7:0]
        for (i=0 ; i<8; i++)
        {
            if (ycbcr==2 || ycbcr == 3)
                temp = pMapCfg->xy2caMap[i] & 0xff; 
            else 
                temp = pMapCfg->xy2caMap[i] >> 8;                
            temp_bit = GetXY2RBCLogic(temp,posX,ypos_mod,tb);
            ca_conv  = ca_conv + (temp_bit << i);
        }

        // ca[15:8]
        ca_conv      = ca_conv + ((mb_addr & 0xff) << 8);

        // ra[15:0]
        ra_conv      = mb_addr >> 8;

        // ra,ba,ca -> axi
        for (i=0; i<32; i++) {

            temp_val12bit = pMapCfg->rbc2axiMap[i];
            temp_val6bit  = (ycbcr == 0 ) ? (temp_val12bit >> 6) : (temp_val12bit & 0x3f);

            temp_bit = GetRBC2AXILogic(temp_val6bit,ra_conv,ba_conv,ca_conv);

            pix_addr =  pix_addr + (temp_bit<<i);
        }

        if (pMapCfg->tbSeparateMap ==1 && tb ==1)
            mb_raster_base = ycbcr == 0 ? lum_bot_base : chr_bot_base;
        else
            mb_raster_base = ycbcr == 0 ? lum_top_base : chr_top_base;

        pix_addr = pix_addr + (mb_raster_base << 12);
    }
    else    
    {            
        // ca
        for (i=0 ; i<16; i++)
        {
            if (ycbcr==0 || ycbcr==1)  // clair : there are no case ycbcr = 1
                temp = pMapCfg->xy2caMap[i] >> 8;
            else 
                temp = pMapCfg->xy2caMap[i] & 0xff;    

            temp_bit = GetXY2RBCLogic(temp,posX,ypos_mod,tb);
            ca_conv  = ca_conv + (temp_bit << i);
        }

        // ba
        for (i=0 ; i<4; i++)
        {
            if (ycbcr==2 || ycbcr == 3)
                temp = pMapCfg->xy2baMap[i] & 0xff;    
            else
                temp = pMapCfg->xy2baMap[i] >> 8;

            temp_bit = GetXY2RBCLogic(temp,posX,ypos_mod,tb);
            ba_conv  = ba_conv + (temp_bit << i);
        }

        // ras
        for (i=0 ; i<16; i++)
        {
            if (ycbcr==2 || ycbcr == 3)
                temp = pMapCfg->xy2raMap[i] & 0xff;    
            else
                temp = pMapCfg->xy2raMap[i] >> 8;

            temp_bit = GetXY2RBCLogic(temp,posX,ypos_mod,tb);
            ra_conv  = ra_conv + (temp_bit << i);
        }

        if (pMapCfg->tbSeparateMap == 1 && tb == 1)
            ras_base = Addr >> 16;
        else
            ras_base = Addr & 0xffff;

        ra_base  = ra_conv + ras_base;
        pix_addr = 0;

        // ra,ba,ca -> axi
        for (i=0; i<32; i++) {

            temp_val12bit = pMapCfg->rbc2axiMap[i];
            temp_val6bit  = (ycbcr == 0 ) ? (temp_val12bit >> 6) : (temp_val12bit & 0x3f);

            temp_bit = GetRBC2AXILogic(temp_val6bit,ra_base,ba_conv,ca_conv);

            pix_addr = pix_addr + (temp_bit<<i);
        }
        pix_addr += pMapCfg->tiledBaseAddr;
    }

    return pix_addr;
}

int GetXY2AXIAddr(TiledMapConfig *pMapCfg, int ycbcr, int posY, int posX, int stride, FrameBuffer *fb)
{    

    if (pMapCfg->productId == PRODUCT_ID_980 || PRODUCT_ID_W_SERIES(pMapCfg->productId))
        return GetXY2AXIAddr20(pMapCfg, ycbcr, posY, posX, stride, fb);
    else if(pMapCfg->productId == PRODUCT_ID_960)
        return GetXY2AXIAddrV10(pMapCfg, ycbcr, posY, posX, stride, fb);

    return 0;
}

int SetTiledMapType(Uint32 coreIdx, TiledMapConfig *pMapCfg, int mapType, int stride, int interleave, DRAMConfig *pDramCfg)
{
    int ret;

    switch(pMapCfg->productId)
    {
        case PRODUCT_ID_980:
            ret = SetTiledMapTypeV20(coreIdx, pMapCfg, mapType, stride, interleave);
            break;
        case PRODUCT_ID_960:
            ret = SetTiledMapTypeV10(coreIdx, pMapCfg, pDramCfg, stride, mapType);
            break;
        case PRODUCT_ID_7503:
        case PRODUCT_ID_410:
        case PRODUCT_ID_4102:
        case PRODUCT_ID_420:
        case PRODUCT_ID_420L:
        case PRODUCT_ID_412:
        case PRODUCT_ID_7Q:
        case PRODUCT_ID_510:
        case PRODUCT_ID_512:
        case PRODUCT_ID_515:
        case PRODUCT_ID_520:
            ret = 1;
            break;
        default:
            ret = 0;
            break;
    }
    return ret;
}

Int32 CalcStride(
    Uint32              width,
    Uint32              height,
    FrameBufferFormat   format,
    BOOL                cbcrInterleave,
    TiledMapType        mapType,
    BOOL                isVP9
    )
{
    Uint32  lumaStride   = 0;
    Uint32  chromaStride = 0;

    lumaStride = VPU_ALIGN32(width);

    if (height > width) {
        if ((mapType >= TILED_FRAME_V_MAP && mapType <= TILED_MIXED_V_MAP) || 
            mapType == TILED_FRAME_NO_BANK_MAP ||
            mapType == TILED_FIELD_NO_BANK_MAP)
            width = VPU_ALIGN16(height);	// TiledMap constraints
    } 
    if (mapType == LINEAR_FRAME_MAP || mapType == LINEAR_FIELD_MAP) {
        Uint32 twice = 0;

        twice = cbcrInterleave == TRUE ? 2 : 1;
        switch (format) {
        case FORMAT_420:
            /* nothing to do */
            break;
        case FORMAT_420_P10_16BIT_LSB:
        case FORMAT_420_P10_16BIT_MSB:
        case FORMAT_422_P10_16BIT_MSB:
        case FORMAT_422_P10_16BIT_LSB:
            lumaStride = VPU_ALIGN32(width)*2;
            break;
        case FORMAT_420_P10_32BIT_LSB:
        case FORMAT_420_P10_32BIT_MSB:
        case FORMAT_422_P10_32BIT_MSB:
        case FORMAT_422_P10_32BIT_LSB: 
            if ( isVP9 == TRUE ) {
                lumaStride   = VPU_ALIGN32(((width+11)/12)*16);
                chromaStride = (((width/2)+11)*twice/12)*16;
            }
            else {
                width = VPU_ALIGN32(width);
                lumaStride   = ((VPU_ALIGN16(width)+11)/12)*16;
                chromaStride = ((VPU_ALIGN16(width/2)+11)*twice/12)*16;
            //if ( isWAVE410 == TRUE ) {
                if ( (chromaStride*2) > lumaStride)
                {
                    lumaStride = chromaStride * 2;
                    VLOG(ERR, "double chromaStride size is bigger than lumaStride\n");
                }
            //}
            }
            if (cbcrInterleave == TRUE) {
                lumaStride = MAX(lumaStride, chromaStride);
            }
            break;
        case FORMAT_422:
            /* nothing to do */
            break;
        case FORMAT_YUYV:       // 4:2:2 8bit packed
        case FORMAT_YVYU:
        case FORMAT_UYVY:
        case FORMAT_VYUY:
            lumaStride = VPU_ALIGN32(width) * 2;
            break;
        case FORMAT_YUYV_P10_16BIT_MSB:   // 4:2:2 10bit packed
        case FORMAT_YUYV_P10_16BIT_LSB:
        case FORMAT_YVYU_P10_16BIT_MSB:
        case FORMAT_YVYU_P10_16BIT_LSB:
        case FORMAT_UYVY_P10_16BIT_MSB:
        case FORMAT_UYVY_P10_16BIT_LSB:
        case FORMAT_VYUY_P10_16BIT_MSB:
        case FORMAT_VYUY_P10_16BIT_LSB:
            lumaStride = VPU_ALIGN32(width) * 4;
            break;
        case FORMAT_YUYV_P10_32BIT_MSB:
        case FORMAT_YUYV_P10_32BIT_LSB:
        case FORMAT_YVYU_P10_32BIT_MSB:
        case FORMAT_YVYU_P10_32BIT_LSB:
        case FORMAT_UYVY_P10_32BIT_MSB:
        case FORMAT_UYVY_P10_32BIT_LSB:
        case FORMAT_VYUY_P10_32BIT_MSB:
        case FORMAT_VYUY_P10_32BIT_LSB:
            lumaStride = VPU_ALIGN32(width*2)*2;
            break;
        default:
            break;
        }
    }
    else if (mapType == COMPRESSED_FRAME_MAP) {
        switch (format) {
        case FORMAT_420:
        case FORMAT_422:
        case FORMAT_YUYV:
        case FORMAT_YVYU:
        case FORMAT_UYVY: 
        case FORMAT_VYUY:
            break;
        case FORMAT_420_P10_16BIT_LSB:
        case FORMAT_420_P10_16BIT_MSB:
        case FORMAT_420_P10_32BIT_LSB:
        case FORMAT_420_P10_32BIT_MSB:
        case FORMAT_422_P10_16BIT_MSB:
        case FORMAT_422_P10_16BIT_LSB:
        case FORMAT_422_P10_32BIT_MSB:
        case FORMAT_422_P10_32BIT_LSB: 
        case FORMAT_YUYV_P10_16BIT_MSB:
        case FORMAT_YUYV_P10_16BIT_LSB:
        case FORMAT_YVYU_P10_16BIT_MSB: 
        case FORMAT_YVYU_P10_16BIT_LSB: 
        case FORMAT_YVYU_P10_32BIT_MSB: 
        case FORMAT_YVYU_P10_32BIT_LSB:
        case FORMAT_UYVY_P10_16BIT_MSB:
        case FORMAT_UYVY_P10_16BIT_LSB:
        case FORMAT_VYUY_P10_16BIT_MSB:
        case FORMAT_VYUY_P10_16BIT_LSB: 
        case FORMAT_YUYV_P10_32BIT_MSB: 
        case FORMAT_YUYV_P10_32BIT_LSB: 
        case FORMAT_UYVY_P10_32BIT_MSB: 
        case FORMAT_UYVY_P10_32BIT_LSB:
        case FORMAT_VYUY_P10_32BIT_MSB: 
        case FORMAT_VYUY_P10_32BIT_LSB:
            lumaStride = VPU_ALIGN32(VPU_ALIGN16(width)*5)/4;
            lumaStride = VPU_ALIGN32(lumaStride);
            break;
        default:
            return -1;
        }
    }
    else if (mapType == TILED_FRAME_NO_BANK_MAP || mapType == TILED_FIELD_NO_BANK_MAP) {
        lumaStride = (width > 4096) ? 8192 :
                     (width > 2048) ? 4096 :
                     (width > 1024) ? 2048 :
                     (width >  512) ? 1024 : 512;
    }
    else if (mapType == TILED_FRAME_MB_RASTER_MAP || mapType == TILED_FIELD_MB_RASTER_MAP) {
        lumaStride = VPU_ALIGN32(width);
    }
    else {
        width = (width < height) ? height : width;

        lumaStride = (width > 4096) ? 8192 :
                     (width > 2048) ? 4096 :
                     (width > 1024) ? 2048 :
                     (width >  512) ? 1024 : 512;
    }

    return lumaStride;
}

int LevelCalculation(int MbNumX, int MbNumY, int frameRateInfo, int interlaceFlag, int BitRate, int SliceNum)
{
    int mbps;
    int frameRateDiv, frameRateRes, frameRate;
    int mbPicNum = (MbNumX*MbNumY);
    int mbFrmNum;
    int MaxSliceNum;

    int LevelIdc = 0;
    int i, maxMbs;

    if (interlaceFlag)    {
        mbFrmNum = mbPicNum*2;
        MbNumY   *=2;
    }
    else                mbFrmNum = mbPicNum;

    frameRateDiv = (frameRateInfo >> 16) + 1;
    frameRateRes  = frameRateInfo & 0xFFFF;
    frameRate = math_div(frameRateRes, frameRateDiv);
    mbps = mbFrmNum*frameRate;

    for(i=0; i<MAX_LAVEL_IDX; i++)
    {
        maxMbs = g_anLevelMaxMbs[i];
        if ( mbps <= g_anLevelMaxMBPS[i]
        && mbFrmNum <= g_anLevelMaxFS[i]
        && MbNumX   <= maxMbs
            && MbNumY   <= maxMbs
            && BitRate  <= g_anLevelMaxBR[i] )
        {
            LevelIdc = g_anLevel[i];
            break;
        }
    }

    if (i==MAX_LAVEL_IDX)
        i = MAX_LAVEL_IDX-1;

    if (SliceNum)
    {
        SliceNum =  math_div(mbPicNum, SliceNum);

    if (g_anLevelSliceRate[i])
    {
        MaxSliceNum = math_div( MAX( mbPicNum, g_anLevelMaxMBPS[i]/( 172/( 1+interlaceFlag ) )), g_anLevelSliceRate[i] );

        if ( SliceNum> MaxSliceNum)
            return -1;
    }
    }

    return LevelIdc;
}

Int32 CalcLumaSize(
    Int32           productId, 
    Int32           stride, 
    Int32           height, 
    FrameBufferFormat format, 
    BOOL            cbcrIntl, 
    TiledMapType    mapType, 
    DRAMConfig      *pDramCfg
    )
{
    Int32 unit_size_hor_lum, unit_size_ver_lum, size_dpb_lum, field_map, size_dpb_lum_4k;
    UNREFERENCED_PARAMETER(cbcrIntl);

    if (mapType == TILED_FIELD_V_MAP || mapType == TILED_FIELD_NO_BANK_MAP || mapType == LINEAR_FIELD_MAP) {
        field_map = 1;
    }
    else {
        field_map = 0;
    }

    if (mapType == LINEAR_FRAME_MAP || mapType == LINEAR_FIELD_MAP) {
        size_dpb_lum = stride * height;
    }
    else if (mapType == COMPRESSED_FRAME_MAP) {
        size_dpb_lum = stride * height;
    }
    else if (mapType == TILED_FRAME_NO_BANK_MAP || mapType == TILED_FIELD_NO_BANK_MAP) {
        unit_size_hor_lum = stride;
        unit_size_ver_lum = (((height>>field_map)+127)/128) * 128; // unit vertical size is 128 pixel (8MB)
        size_dpb_lum      = unit_size_hor_lum * (unit_size_ver_lum<<field_map);
    }
    else if (mapType == TILED_FRAME_MB_RASTER_MAP || mapType == TILED_FIELD_MB_RASTER_MAP) {
        if (productId == PRODUCT_ID_960) {
            size_dpb_lum   = stride * height;

            // aligned to 8192*2 (0x4000) for top/bot field
            // use upper 20bit address only
            size_dpb_lum_4k =  ((size_dpb_lum + 16383)/16384)*16384;

            if (mapType == TILED_FIELD_MB_RASTER_MAP) {
                size_dpb_lum_4k = ((size_dpb_lum_4k+(0x8000-1))&~(0x8000-1));
            }

            size_dpb_lum = size_dpb_lum_4k;
        }
        else {
            size_dpb_lum    = stride * (height>>field_map);
            size_dpb_lum_4k = ((size_dpb_lum+(16384-1))/16384)*16384;
            size_dpb_lum    = size_dpb_lum_4k<<field_map;
        }
    }
    else {
        if (productId == PRODUCT_ID_960) {
            Int32    VerSizePerRas,Ras1DBit; 
            Int32    ChrSizeYField;
            Int32    ChrFieldRasSize,ChrFrameRasSize,LumFieldRasSize,LumFrameRasSize;

            ChrSizeYField = ((height/2)+1)>>1;

            if (pDramCfg == NULL)
                return 0;
            if (mapType == TILED_FRAME_V_MAP) {
                if (pDramCfg->casBit == 9 && pDramCfg->bankBit == 2 && pDramCfg->rasBit == 13) {	// CNN setting 
                    VerSizePerRas = 64;
                    Ras1DBit = 3;
                }
                else if(pDramCfg->casBit == 10 && pDramCfg->bankBit == 3 && pDramCfg->rasBit == 13) {
                    VerSizePerRas = 64;
                    Ras1DBit = 2;
                }
                else if (pDramCfg->casBit == 10 && pDramCfg->bankBit == 3 && pDramCfg->rasBit == 16) {  // BITMAIN setting 
                    VerSizePerRas = 64; // Tile (16x2)*(4*2)
                    Ras1DBit = 1;
                }
                else if (pDramCfg->casBit == 10 && pDramCfg->bankBit == 4 && pDramCfg->rasBit == 15) {  // BITMAIN setting 
                    VerSizePerRas = 128; // Tile (8x4)*(8x2)
                    Ras1DBit = 1;
                }                
                else
                    return 0;

            }
            else if (mapType == TILED_FRAME_H_MAP) {
                if (pDramCfg->casBit == 9 && pDramCfg->bankBit == 2 && pDramCfg->rasBit == 13) {	// CNN setting 
                    VerSizePerRas = 64;
                    Ras1DBit = 3;
                }
                else if(pDramCfg->casBit == 10 && pDramCfg->bankBit == 3 && pDramCfg->rasBit == 13) {
                    VerSizePerRas = 64;
                    Ras1DBit = 2;
                }
                else
                    return 0;

            }
            else if (mapType == TILED_FIELD_V_MAP) {
                if (pDramCfg->casBit == 9 && pDramCfg->bankBit == 2 && pDramCfg->rasBit == 13) {	// CNN setting 
                    VerSizePerRas = 64;
                    Ras1DBit = 3;
                }
                else if(pDramCfg->casBit == 10 && pDramCfg->bankBit == 3 && pDramCfg->rasBit == 13) {
                    VerSizePerRas = 64;
                    Ras1DBit = 2;
                }
                else if (pDramCfg->casBit == 10 && pDramCfg->bankBit == 3 && pDramCfg->rasBit == 16) {  // BITMAIN setting 
                    VerSizePerRas = 64; // Tile (16x2)*(4*2)
                    Ras1DBit = 1;
                }
                else if (pDramCfg->casBit == 10 && pDramCfg->bankBit == 4 && pDramCfg->rasBit == 15) {  // BITMAIN setting 
                    VerSizePerRas = 128; // Tile (8x4)*(8x2)
                    Ras1DBit = 1;
                }                
                else
                    return 0;
            } 
            else {         // TILED_FIELD_H_MAP
                if (pDramCfg->casBit == 9 && pDramCfg->bankBit == 2 && pDramCfg->rasBit == 13) {	// CNN setting 
                    VerSizePerRas = 64;
                    Ras1DBit = 3;
                }
                else if(pDramCfg->casBit == 10 && pDramCfg->bankBit == 3 && pDramCfg->rasBit == 13) {
                    VerSizePerRas = 64;
                    Ras1DBit = 2;
                }
                else
                    return 0;
            }
            ChrFieldRasSize = ((ChrSizeYField + (VerSizePerRas-1))/VerSizePerRas) << Ras1DBit;
            ChrFrameRasSize = ChrFieldRasSize *2;
            LumFieldRasSize = ChrFrameRasSize;
            LumFrameRasSize = LumFieldRasSize *2;
            size_dpb_lum    = LumFrameRasSize << (pDramCfg->bankBit+pDramCfg->casBit+pDramCfg->busBit);
        }
        else {  // productId != 960
            unit_size_hor_lum = stride;
            unit_size_ver_lum = (((height>>field_map)+63)/64) * 64; // unit vertical size is 64 pixel (4MB)
            size_dpb_lum      = unit_size_hor_lum * (unit_size_ver_lum<<field_map);
        }
    }

    return size_dpb_lum;
}

Int32 CalcChromaSize(
    Int32               productId, 
    Int32               stride, 
    Int32               height, 
    FrameBufferFormat   format, 
    BOOL                cbcrIntl, 
    TiledMapType        mapType, 
    DRAMConfig*         pDramCfg
    )
{
    Int32 chr_size_y, chr_size_x;
    Int32 chr_vscale, chr_hscale;
    Int32 unit_size_hor_chr, unit_size_ver_chr;
    Int32 size_dpb_chr, size_dpb_chr_4k;
    Int32 field_map;

    unit_size_hor_chr = 0;
    unit_size_ver_chr = 0;

    chr_hscale = 1;
    chr_vscale = 1;

    switch (format) {
    case FORMAT_420_P10_16BIT_LSB:
    case FORMAT_420_P10_16BIT_MSB:
    case FORMAT_420_P10_32BIT_LSB:
    case FORMAT_420_P10_32BIT_MSB:
    case FORMAT_420:
        chr_hscale = 2;
        chr_vscale = 2;
        break;
    case FORMAT_224:
        chr_vscale = 2;
        break;
    case FORMAT_422:
    case FORMAT_422_P10_16BIT_LSB:
    case FORMAT_422_P10_16BIT_MSB:
    case FORMAT_422_P10_32BIT_LSB:
    case FORMAT_422_P10_32BIT_MSB:
        chr_hscale = 2;
        break;
    case FORMAT_444:
    case FORMAT_400:
    case FORMAT_YUYV:
    case FORMAT_YVYU:
    case FORMAT_UYVY:
    case FORMAT_VYUY:
    case FORMAT_YUYV_P10_16BIT_MSB:   // 4:2:2 10bit packed
    case FORMAT_YUYV_P10_16BIT_LSB:
    case FORMAT_YVYU_P10_16BIT_MSB:
    case FORMAT_YVYU_P10_16BIT_LSB:
    case FORMAT_UYVY_P10_16BIT_MSB:
    case FORMAT_UYVY_P10_16BIT_LSB:
    case FORMAT_VYUY_P10_16BIT_MSB:
    case FORMAT_VYUY_P10_16BIT_LSB:
    case FORMAT_YUYV_P10_32BIT_MSB:
    case FORMAT_YUYV_P10_32BIT_LSB:
    case FORMAT_YVYU_P10_32BIT_MSB:
    case FORMAT_YVYU_P10_32BIT_LSB:
    case FORMAT_UYVY_P10_32BIT_MSB:
    case FORMAT_UYVY_P10_32BIT_LSB:
    case FORMAT_VYUY_P10_32BIT_MSB:
    case FORMAT_VYUY_P10_32BIT_LSB:
        break;
    default:
        return 0;
    }

    if (mapType == TILED_FIELD_V_MAP || mapType == TILED_FIELD_NO_BANK_MAP || mapType == LINEAR_FIELD_MAP) {
        field_map = 1;
    }
    else {
        field_map = 0;
    }

    if (mapType == LINEAR_FRAME_MAP || mapType == LINEAR_FIELD_MAP) {
        switch (format) {
        case FORMAT_420:
            unit_size_hor_chr = stride/2; 
            unit_size_ver_chr = height/2;
            break;
        case FORMAT_420_P10_16BIT_LSB:
        case FORMAT_420_P10_16BIT_MSB:
            unit_size_hor_chr = stride/2;
            unit_size_ver_chr = height/2;
            break;
        case FORMAT_420_P10_32BIT_LSB:
        case FORMAT_420_P10_32BIT_MSB:
            unit_size_hor_chr = VPU_ALIGN16(stride/2);
            unit_size_ver_chr = height/2;
            break;
        case FORMAT_422:
        case FORMAT_422_P10_16BIT_LSB:
        case FORMAT_422_P10_16BIT_MSB:
        case FORMAT_422_P10_32BIT_LSB:
        case FORMAT_422_P10_32BIT_MSB:
            unit_size_hor_chr = VPU_ALIGN32(stride/2);
            unit_size_ver_chr = height;
            break;
        case FORMAT_YUYV:
        case FORMAT_YVYU:
        case FORMAT_UYVY:
        case FORMAT_VYUY:
        case FORMAT_YUYV_P10_16BIT_MSB:   // 4:2:2 10bit packed
        case FORMAT_YUYV_P10_16BIT_LSB:
        case FORMAT_YVYU_P10_16BIT_MSB:
        case FORMAT_YVYU_P10_16BIT_LSB:
        case FORMAT_UYVY_P10_16BIT_MSB:
        case FORMAT_UYVY_P10_16BIT_LSB:
        case FORMAT_VYUY_P10_16BIT_MSB:
        case FORMAT_VYUY_P10_16BIT_LSB:
        case FORMAT_YUYV_P10_32BIT_MSB:
        case FORMAT_YUYV_P10_32BIT_LSB:
        case FORMAT_YVYU_P10_32BIT_MSB:
        case FORMAT_YVYU_P10_32BIT_LSB:
        case FORMAT_UYVY_P10_32BIT_MSB:
        case FORMAT_UYVY_P10_32BIT_LSB:
        case FORMAT_VYUY_P10_32BIT_MSB:
        case FORMAT_VYUY_P10_32BIT_LSB:
            unit_size_hor_chr = 0; 
            unit_size_ver_chr = 0;
            break;
        default:
            break;
        }
        size_dpb_chr = (format == FORMAT_400) ? 0 : unit_size_ver_chr * unit_size_hor_chr;
    }
    else if (mapType == COMPRESSED_FRAME_MAP) {
        switch (format) {
        case FORMAT_420:
        case FORMAT_YUYV:       // 4:2:2 8bit packed
        case FORMAT_YVYU:
        case FORMAT_UYVY:
        case FORMAT_VYUY:
            size_dpb_chr = VPU_ALIGN16(stride/2)*height;
            break;
        default:
            /* 10bit */
            stride = VPU_ALIGN64(stride/2)+12; /* FIXME: need width information */
            size_dpb_chr = VPU_ALIGN32(stride)*VPU_ALIGN4(height);
            break;
        }
        size_dpb_chr = size_dpb_chr / 2;
    }
    else if (mapType == TILED_FRAME_NO_BANK_MAP || mapType == TILED_FIELD_NO_BANK_MAP) {
        chr_size_y = (height>>field_map)/chr_hscale; 
        chr_size_x = stride/chr_vscale;

        unit_size_hor_chr = (chr_size_x > 4096) ? 8192:
                            (chr_size_x > 2048) ? 4096 :
                            (chr_size_x > 1024) ? 2048 :
                            (chr_size_x >  512) ? 1024 : 512;
        unit_size_ver_chr = ((chr_size_y+127)/128) * 128; // unit vertical size is 128 pixel (8MB)

        size_dpb_chr = (format==FORMAT_400) ? 0 : (unit_size_hor_chr * (unit_size_ver_chr<<field_map));
    }
    else if (mapType == TILED_FRAME_MB_RASTER_MAP || mapType == TILED_FIELD_MB_RASTER_MAP) {
        if (productId == PRODUCT_ID_960) {
            chr_size_x = stride/chr_hscale;
            chr_size_y = height/chr_hscale;
            size_dpb_chr   = chr_size_y * chr_size_x;

            // aligned to 8192*2 (0x4000) for top/bot field
            // use upper 20bit address only
            size_dpb_chr_4k	=  ((size_dpb_chr + 16383)/16384)*16384;

            if (mapType == TILED_FIELD_MB_RASTER_MAP) {
                size_dpb_chr_4k = ((size_dpb_chr_4k+(0x8000-1))&~(0x8000-1));
            }

            size_dpb_chr = size_dpb_chr_4k;
        }
        else {
            size_dpb_chr    = (format==FORMAT_400) ? 0 : ((stride * (height>>field_map))/(chr_hscale*chr_vscale));
            size_dpb_chr_4k = ((size_dpb_chr+(16384-1))/16384)*16384;
            size_dpb_chr    = size_dpb_chr_4k<<field_map;
        }
    }
    else {
        if (productId == PRODUCT_ID_960) {
            int  VerSizePerRas,Ras1DBit; 
            int  ChrSizeYField;
            int  divY;
            int  ChrFieldRasSize,ChrFrameRasSize;

            divY = format == FORMAT_420 || format == FORMAT_224 ? 2 : 1;

            ChrSizeYField = ((height/divY)+1)>>1;
            if (pDramCfg == NULL)
                return 0;
            if (mapType == TILED_FRAME_V_MAP) {
                if (pDramCfg->casBit == 9 && pDramCfg->bankBit == 2 && pDramCfg->rasBit == 13) {	// CNN setting 
                    VerSizePerRas = 64;
                    Ras1DBit = 3;
                }
                else if(pDramCfg->casBit == 10 && pDramCfg->bankBit == 3 && pDramCfg->rasBit == 13) {
                    VerSizePerRas = 64;
                    Ras1DBit = 2;
                }
                else if (pDramCfg->casBit == 10 && pDramCfg->bankBit == 3 && pDramCfg->rasBit == 16) {  // BITMAIN setting 
                    VerSizePerRas = 64; // Tile (16x2)*(4*2)
                    Ras1DBit = 1;
                }
                else if (pDramCfg->casBit == 10 && pDramCfg->bankBit == 4 && pDramCfg->rasBit == 15) {  // BITMAIN setting 
                    VerSizePerRas = 128; // Tile (8x4)*(8x2)
                    Ras1DBit = 1;
                }                
                else
                    return 0;

            }
            else if (mapType == TILED_FRAME_H_MAP) {
                if (pDramCfg->casBit == 9 && pDramCfg->bankBit == 2 && pDramCfg->rasBit == 13) {	// CNN setting 
                    VerSizePerRas = 64;
                    Ras1DBit = 3;
                }
                else if(pDramCfg->casBit == 10 && pDramCfg->bankBit == 3 && pDramCfg->rasBit == 13) {
                    VerSizePerRas = 64;
                    Ras1DBit = 2;
                }
                else
                    return 0;

            }
            else if (mapType == TILED_FIELD_V_MAP) {
                if (pDramCfg->casBit == 9 && pDramCfg->bankBit == 2 && pDramCfg->rasBit == 13) {	// CNN setting 
                    VerSizePerRas = 64;
                    Ras1DBit = 3;
                }
                else if(pDramCfg->casBit == 10 && pDramCfg->bankBit == 3 && pDramCfg->rasBit == 13) {
                    VerSizePerRas = 64;
                    Ras1DBit = 2;
                }
                else if (pDramCfg->casBit == 10 && pDramCfg->bankBit == 3 && pDramCfg->rasBit == 16) {  // BITMAIN setting 
                    VerSizePerRas = 64; // Tile (16x2)*(4*2)
                    Ras1DBit = 1;
                }
                else if (pDramCfg->casBit == 10 && pDramCfg->bankBit == 4 && pDramCfg->rasBit == 15) {  // BITMAIN setting 
                    VerSizePerRas = 128; // Tile (8x4)*(8x2)
                    Ras1DBit = 1;
                }                 
                else
                    return 0;
            } else {         // TILED_FIELD_H_MAP
                if (pDramCfg->casBit == 9 && pDramCfg->bankBit == 2 && pDramCfg->rasBit == 13) {	// CNN setting 
                    VerSizePerRas = 64;
                    Ras1DBit = 3;
                }
                else if(pDramCfg->casBit == 10 && pDramCfg->bankBit == 3 && pDramCfg->rasBit == 13) {
                    VerSizePerRas = 64;
                    Ras1DBit = 2;
                }
                else
                    return 0;
            }
            ChrFieldRasSize = ((ChrSizeYField + (VerSizePerRas-1))/VerSizePerRas) << Ras1DBit;
            ChrFrameRasSize = ChrFieldRasSize *2;
            size_dpb_chr = (ChrFrameRasSize << (pDramCfg->bankBit+pDramCfg->casBit+pDramCfg->busBit)) / 2;      // divide 2  = to calucate one Cb(or Cr) size;

        }
        else {  // productId != 960
            chr_size_y = (height>>field_map)/chr_hscale; 
            chr_size_x = cbcrIntl == TRUE ? stride : stride/chr_vscale;

            unit_size_hor_chr = (chr_size_x> 4096) ? 8192:
                                (chr_size_x> 2048) ? 4096 :
                                (chr_size_x > 1024) ? 2048 :
                                (chr_size_x >  512) ? 1024 : 512;
            unit_size_ver_chr = ((chr_size_y+63)/64) * 64; // unit vertical size is 64 pixel (4MB)

            size_dpb_chr  = (format==FORMAT_400) ? 0 : unit_size_hor_chr * (unit_size_ver_chr<<field_map);
            size_dpb_chr /= (cbcrIntl == TRUE ? 2 : 1);
        }
        
    }
    return size_dpb_chr;
}

